renewable energy projections as published in the …...renewable energy projections as published in...
TRANSCRIPT
Renewable Energy Projectionsas Published in the National
Renewable Energy Action Plansof the European Member States
Summary report
L.W.M. BeurskensM. Hekkenberg
P. Vethman
ECN-E--10-069 28 November 2011
AcknowledgementThis report has been written with financial support from the European Environment Agency(EEA). The EEA project manager was David Owain Clubb.
The authors acknowledge the following persons for their assistance in compiling this report:Heather Haydock (AEA) and Tjaša Bole, Bernard Bulder, Joost Gerdes, Manuela Loos, LindaPronk, Hilke Rösler, Cees Volkers, Adriaan van der Welle and Remko Ybema (all from ECN).
The ECN number of the project resulting in this report is 6.00512. The authors can be contactedfor enquiries, corrections or other remarks at [email protected].
This document has been typeset in LATEX (http://www.latex-project.org).
DisclaimerThis report has been compiled with great care. Focus has been on data tables in the originalNREAP documents and in all supplementary information provided by the European MemberStates. The original NREAP documents remain the authentic versions. The Energy researchCentre of the Netherlands (ECN) and the European Environment Agency (EEA) cannot assureany responsibility for any remaining errors, if and when applicable, of the data in this report andin the underlying database.
AbstractThis summary report presents an overview of all data that have been published in the NationalRenewable Energy Action Plans (NREAPs). In this version of the document (dated 28 November2011) all 27 European Union Member States have been covered, and for 20 countries supple-mentary information provided by the Member States has been integrated. These Member Statesare: Austria, Belgium, Bulgaria, Cyprus, Denmark, Finland, France, Greece, Hungary, Ireland,Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Portugal, Romania, Spain, Sweden andthe United Kingdom. For the following Member States no additional information is available:the Czech Republic, Estonia, Germany, Italy, Poland, Slovakia and Slovenia, so data from theoriginal NREAP have been used for these countries.
This summary report presents all data from the NREAPs in tabular form. The main report in ad-dition highlights various cross-sections of the database that has been compiled from the NREAPdocuments, including derived indicators. The underlying database and the images from the reportare available at http://www.ecn.nl/nreap.
KeywordsNational Renewable Energy Action Plans (NREAPs), renewable energy in the European Union
Scanning the two-dimensional barcode (QR) at the left with a cam-era phone equipped with appropriate software will open the URLhttp://www.ecn.nl/nreap, which redirects to the ECN Policy Studiesproject pages (http://www.ecn.nl/units/ps/themes/renewable-energy/projects/nreap). From this location the reports, the database files (incomma-separated values and a spreadsheet in Open Document For-mat) and the image files are available for download.
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Contents
Summary 9
Gross final energy consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
All renewable energy sources (RES) . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
The share of renewable energy in gross final energy consumption . . . . . . . . . . . . 11
Detailed information from RES-specific projections . . . . . . . . . . . . . . . . . . . 13
Differences between the two approaches . . . . . . . . . . . . . . . . . . . . . . . . . 18
Targets and trajectories 21
Gross final energy consumption 31
Renewable aggregate data as reported in NREAP 45
Biomass supply 51
RES excess and deficit for flexible mechanisms 63
Country Tables 87
Belgium 116
Bulgaria 116
Czech Republic 116
Denmark 116
Germany 116
Estonia 116
Ireland 116
Greece 116
Spain 116
France 116
Italy 116
Cyprus 116
Latvia 116
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Lithuania 116
Luxembourg 116
Hungary 116
Malta 116
Netherlands 116
Austria 116
Poland 116
Portugal 116
Romania 116
Slovenia 116
Slovakia 116
Finland 116
Sweden 116
United Kingdom 116
European Union, EU-27 116
Index 116
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List of Tables
1 Gross final energy consumption in the reference scenario for 27 countries . . . . 10
2 Gross final energy consumption in the additional efficiency scenario for 27 countries 11
3 Total renewable energy for 27 countries . . . . . . . . . . . . . . . . . . . . . . 12
4 Gross final energy consumption in the additional efficiency scenario for 27 countries 12
5 Total renewable electricity capacity and energy for 27 countries . . . . . . . . . 14
6 Annual growth of renewable electricity capacity and energy for 27 countries . . . 15
7 Total renewable heating and cooling energy for 27 countries . . . . . . . . . . . 16
8 Annual growth for renewable heating and cooling energy for 27 countries . . . . 16
9 Total renewable transport energy for 27 countries . . . . . . . . . . . . . . . . . 17
10 Annual growth for renewable transport for 27 countries . . . . . . . . . . . . . . 17
11 Total renewable energy for 27 countries . . . . . . . . . . . . . . . . . . . . . . 18
12 Gross final energy consumption in the additional efficiency scenario for 27 countries 19
13 Renewable energy shares from Annex I of the Directive [%] . . . . . . . . . . . 22
14 Renewable energy shares according to Annex I and NREAP documents [%] . . 23
15 Belgium: indicative trajectory for the renewable energy share [%] . . . . . . . . 24
16 Bulgaria: indicative trajectory for the renewable energy share [%] . . . . . . . . 24
17 Czech Republic: indicative trajectory for the renewable energy share [%] . . . . 24
18 Denmark: indicative trajectory for the renewable energy share [%] . . . . . . . . 24
19 Germany: indicative trajectory for the renewable energy share [%] . . . . . . . . 25
20 Estonia: indicative trajectory for the renewable energy share [%] . . . . . . . . . 25
21 Ireland: indicative trajectory for the renewable energy share [%] . . . . . . . . . 25
22 Greece: indicative trajectory for the renewable energy share [%] . . . . . . . . . 25
23 Spain: indicative trajectory for the renewable energy share [%] . . . . . . . . . 26
24 France: indicative trajectory for the renewable energy share [%] . . . . . . . . . 26
25 Italy: indicative trajectory for the renewable energy share [%] . . . . . . . . . . 26
26 Cyprus: indicative trajectory for the renewable energy share [%] . . . . . . . . . 26
27 Latvia: indicative trajectory for the renewable energy share [%] . . . . . . . . . 27
28 Lithuania: indicative trajectory for the renewable energy share [%] . . . . . . . 27
29 Luxembourg: indicative trajectory for the renewable energy share [%] . . . . . . 27
30 Hungary: indicative trajectory for the renewable energy share [%] . . . . . . . . 27
31 Malta: indicative trajectory for the renewable energy share [%] . . . . . . . . . 28
32 Netherlands: indicative trajectory for the renewable energy share [%] . . . . . . 28
33 Austria: indicative trajectory for the renewable energy share [%] . . . . . . . . . 28
34 Poland: indicative trajectory for the renewable energy share [%] . . . . . . . . . 28
35 Portugal: indicative trajectory for the renewable energy share [%] . . . . . . . . 29
36 Romania: indicative trajectory for the renewable energy share [%] . . . . . . . . 29
37 Slovenia: indicative trajectory for the renewable energy share [%] . . . . . . . . 29
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38 Slovakia: indicative trajectory for the renewable energy share [%] . . . . . . . . 29
39 Finland: indicative trajectory for the renewable energy share [%] . . . . . . . . 30
40 Sweden: indicative trajectory for the renewable energy share [%] . . . . . . . . 30
41 United Kingdom: indicative trajectory for the renewable energy share [%] . . . 30
42 Availability of scenarios and the aviation reduction . . . . . . . . . . . . . . . . 33
43 Final consumption electricity for reference scenario [ktoe] . . . . . . . . . . . . 34
44 Final consumption electricity for additional energy efficiency scenario [ktoe] . . 35
45 Final consumption heating and cooling for reference scenario [ktoe] . . . . . . . 36
46 Final consumption heating and cooling for additional efficiency scenario [ktoe] . 37
47 Final consumption transport for reference scenario [ktoe] . . . . . . . . . . . . 38
48 Final consumption transport for additional energy efficiency scenario [ktoe] . . . 39
49 Final consumption before aviation reduction for reference scenario [ktoe] . . . . 40
50 Final consumption before aviation reduction for additional efficiency [ktoe] . . . 41
51 Final consumption after aviation reduction for reference scenario [ktoe] . . . . . 42
52 Final consumption after aviation reduction for additional energy efficiency [ktoe] 43
53 Aggregate RES according to NREAP in 2005 . . . . . . . . . . . . . . . . . . . 46
54 Aggregate RES according to NREAP in 2010 . . . . . . . . . . . . . . . . . . . 47
55 Aggregate RES according to NREAP in 2015 . . . . . . . . . . . . . . . . . . . 48
56 Aggregate RES according to NREAP in 2020 . . . . . . . . . . . . . . . . . . . 49
57 Biomass supply from forestry (total) . . . . . . . . . . . . . . . . . . . . . . . . 52
58 Biomass supply from forestry (direct) . . . . . . . . . . . . . . . . . . . . . . . 53
59 Biomass supply from forestry (indirect) . . . . . . . . . . . . . . . . . . . . . . 54
60 Biomass supply from agriculture and fisheries (total) . . . . . . . . . . . . . . . 55
61 Biomass supply from agriculture and fisheries (direct) . . . . . . . . . . . . . . . 56
62 Biomass supply from agriculture and fisheries (by-products) . . . . . . . . . . . 57
63 Biomass supply from waste (total) . . . . . . . . . . . . . . . . . . . . . . . . . 58
64 Biomass supply from waste (municipal) . . . . . . . . . . . . . . . . . . . . . . 59
65 Biomass supply from waste (industrial) . . . . . . . . . . . . . . . . . . . . . . 60
66 Biomass supply from waste (sewage sludge) . . . . . . . . . . . . . . . . . . . . 61
67 Land used for short rotation trees and other energy crops [ha] . . . . . . . . . . 62
68 Estimated excess in NREAP [ktoe] . . . . . . . . . . . . . . . . . . . . . . . . 64
69 Estimated deficit in NREAP [ktoe] . . . . . . . . . . . . . . . . . . . . . . . . 65
70 Hydropower electric capacity including category breakdown [MW] . . . . . . . 66
71 Hydropower electricity generation including category breakdown [GWh] . . . . 67
72 Cumulative geothermal electric capacity [MW] . . . . . . . . . . . . . . . . . . 68
73 Cumulative geothermal electricity generation [GWh] . . . . . . . . . . . . . . . 69
74 Solar electric capacity including category breakdown [MW] . . . . . . . . . . . 70
75 Solar electricity generation including category breakdown [GWh] . . . . . . . . 71
76 Tidal, wave and ocean energy electric capacity [MW] . . . . . . . . . . . . . . 72
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77 Tidal, wave and ocean energy electricity generation [GWh] . . . . . . . . . . . 73
78 Wind power electric capacity including category breakdown [MW] . . . . . . . 74
79 Wind power electricity generation including category breakdown [GWh] . . . . 75
80 Biomass electric capacity including category breakdown [MW] . . . . . . . . . 76
81 Biomass electricity generation including category breakdown [GWh] . . . . . . 77
82 Cumulative geothermal heat energy [ktoe] . . . . . . . . . . . . . . . . . . . . . 78
83 Cumulative solar thermal energy [ktoe] . . . . . . . . . . . . . . . . . . . . . . 79
84 Biomass heat energy including category breakdown [ktoe] . . . . . . . . . . . . 80
85 Heat pump thermal energy including category breakdown [ktoe] . . . . . . . . . 81
86 Bioethanol / bio-ETBE in renewable transport including subcategories [ktoe] . . 82
87 Biodiesel in renewable transport including category breakdown [ktoe] . . . . . . 83
88 Hydrogen from renewables in transport [ktoe] . . . . . . . . . . . . . . . . . . . 84
89 Renewable electricity in transport including category breakdown [ktoe] . . . . . 85
90 Other biofuels in transport including category breakdown [ktoe] . . . . . . . . . 86
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Summary
The Renewable Energy Directive (2009/28/EC)1 addresses various subjects related to the devel-opment of renewable energies in the European Member States, among others the legally bindingshare of renewable energy in gross final energy consumption. In Article 4 of the Directive eachMember State is requested to provide a National Renewable Energy Action Plan (NREAP) by30 June 2010. In order to draft this plan, a template2 was published by the Commission. EachMember State is requested to complete a set of tables in this template on how it expects to meetits 2020 target, including the technology mix and the trajectory to reach it. The current reportmakes use of the fact that these tables have been defined in a consistent way. All data havebeen collected from the NREAP documents and they are available as a data report (this report), adatabase containing all data from the NREAPs (in plain-text and in spreadsheet format) and a setof figures from the datareport (in PDF and PNG). The purpose has been to allow easy comparisonfor further analysis by the audience3.
The focus of this work is on the numbers and figures of the renewable energy projections. Allother subjects addressed in the documents, such as renewable energy policies, costs and benefitsand grid integration issues have not been considered in the current analysis. Moreover, it wasnot the objective of this analysis to check whether the proposed policies indeed result in theprojections made.
Whereas the data report focuses on the projections for the individual Member States, this sum-mary section focuses on the aggregate results for all European Member States: Austria, Belgium,Bulgaria, Cyprus, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece,Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Poland, Portu-gal, Romania, Slovenia, Slovakia, Spain, Sweden and the United Kingdom. For 20 countriessupplementary information provided by the Member States has been integrated. These MemberStates are: Austria, Belgium, Bulgaria, Cyprus, Denmark, Finland, France, Greece, Hungary, Ire-land, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Portugal, Romania, Spain, Swedenand the United Kingdom. For the following Member States no additional information is avail-able: the Czech Republic, Estonia, Germany, Italy, Poland, Slovakia and Slovenia, meaning thatfor these countries data from the original NREAP have been used.
In the following, figures from all Member States have been combined to yield estimates for ‘totalvalues’ for all 27 Member States of the European Union (EU-27). Two methods have been appliedto do this:
a. Using the aggregate tables from the individual NREAPs (Tables 3 and 4, resulting in a totalRES share of 20.7% in 2020;
b. Using the technology-specific tables from the NREAPs (Tables 5 to 12, page 13 onwards,resulting in a total RES share of 20.8%.
For calculating the overal RES share the thus derived total RES estimates have compared to thegross final energy use as projected in the ‘additional energy efficiency scenario’ (Table 2).
The charts and tables in this report present primary data (numbers directly taken from the NREAPdocuments) and secondary data (data derived from the primary data). For the secondary data, fourparameters have been presented consistently throughout the report: an indicator on full load hours(applies to electricity options only), an indicator on growth rates calculated from the projected
1At http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009L0028:EN:NOT the Renewable En-ergy Directive is available for download in all European languages.
2 The Template is available from http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT.
3At http://www.ecn.nl/nreap the report, the database and the image files are available for download.
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energy production (for electricity options also for changes in capacity), and indicators on percapita and per surface area achievement. Although for the two latter indicators a bias existsbetween countries depending on their population density, these indicators enable comparison oflarge and small countries in a more meaningful manner (see main report at www.ecn.nl/nreap).The indicators depicted in the report show the merits of presenting the data using these indicators:large countries with high projections for certain renewables countries are averaged out whenpresented on a per capita or a per surface area basis. The indicator on full load hours showsexpected deviations between Southern European countries and Northern European countries forsolar electricity technologies.
Gross final energy consumption
The NREAPs all provide projections for gross final energy consumption in the period 2010 –2020. Most Member States have specified two scenarios: a ‘reference’ and an ‘additional energyefficiency scenario’. Gross final energy consumption has been reported for electricity, heatingand cooling and transport separately.
The gross final energy consumption according to these two scenarios for some Member Stateshas been reduced in order to compensate for a relatively large share of aviation in their grossfinal consumption of energy (see Article 5.6 in the Renewable Energy Directive (2009/28/EC)and the introduction section on page 32). This results in a value ‘before aviation reduction’ andin a value ‘after aviation reduction’. Table 1 presents for the reference scenario the resultingenergy consumption data for all 27 Member States of the European Union (EU-27), the relativeshares and the average annual growth rates. Table 2 presents the same for the additional energyefficiency scenario.
For the purpose of calculating the overall renewable share the relevant parameter is the grossfinal energy consumption after aviation reduction (in Table 2 the last row, indicating ‘Total afteraviation’). In the year 2020 this value amounts to 1180 Mtoe.
All renewable energy sources (RES)
Table 3 indicates that the total gross production from renewable energy sources (RES) amountsto 244.6 Mtoe in the year 2020. The largest contributions of renewable energy originate fromheating and cooling (RES-H/C, 46% in 2020) and from renewable electricity (RES-E, 42% in2020).
Table 1: Total gross final energy consumption in the reference scenario for all demand sectorsfor the aggregate of all 27 European Union Member States. See Tables 43, 45, 47, 49and 51 for details.
Energy Share Average annual growth
2005 2010 2015 2020 ’05 – ’10 ’10 – ’15 ’15 – ’20[Mtoe] [Mtoe] [Mtoe] [Mtoe] [%]a [%/year] [%/year] [%/year]
Electricity 268 286 307 329 25 1.3 1.4 1.4Heating and cooling 552 556 569 581 44 0.1 0.5 0.4Transport 299 322 337 349 27 1.5 0.9 0.7
Total before aviation 1166 1213 1266 1317 100 0.8 0.9 0.8Total after aviation 1162 1208 1259 1307 99 0.8 0.8 0.8
a The percentage refers to the share of the demand sectors (electricity, heating and cooling and transport) in total grossfinal energy consumption before aviation reduction in the year 2020.
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Renewable transport (RES-T) contributes 13% to the overall renewable energy in 2020. On av-erage this projection results in an annual growth for overall renewables of approximately 6%annually for the period 2010 - 2020. The presented data have been taken from the aggregate tablein the individual NREAPs4.
The share of renewable energy in gross final energy consumption
Based on the above-mentioned parameters, Table 4 integrates the EU-27 contribution from re-newable energy sources (the denominator in the quotient for calculating the share of renewables,available from Table 3) and the gross final energy consumption (the numerator, available fromTables 1 and 2). From this table it can be seen that in the year 2020 the overall share of renew-ables in the ‘additional energy efficiency scenario’ after applying the aviation reduction slightlyovershoots the EU-27 target of 20% renewable energy in the year 2020, arriving at 20.7%. Inthe reference scenario the EU-27 target is not being met (less than 19% in 2020); this is a logicalresult of the fact that all projections have been designed to meet the target for the additional en-ergy efficiency scenario. The ‘aviation reduction’ applied to the gross final energy consumptionresults in an increase of the overall renewable share of 0.1%-point (from 20.6% to 20.7%).
Table 4 also presents the share of renewables in transport according to the Directive definition(see table footnote b). For the year 2020 the target largely surpasses the target of 10%: a share of11.3% is being reached.
Looking at the overall growth rates per renewable energy type, it can be observed that for theperiod 2010 – 2020 the growth rates are smallest for renewable heating and cooling (between4.5% and 5.7% annually, depending on the period), and that renewable transport is growing fastest(7.2% to 8.5% annually, with a very high growth rate for the period 2005 - 2010 (31.2% per year,caused by the relatively low energy contribution of 3.9 Mtoe for 2005). Renewable electricity hasa growth rate of 6.2% to 6.8% annually. It should be noted however that these growth rates areaverage values, and that the conventional renewable technologies (hydropower electricity, solidbiomass heating) constitute a large part of the renewable energy stock. From the summary sectionon detailed RES-specific projections (starting on page 13) it can be observed that average growthrates for new renewables (wind power, solar electricity and solar thermal energy, heat pumps andbiofuels for example) are significantly higher (Tables 6, 8 and 10).
4The aggregate table mentioned here refers to the NREAP Template Table 4a, see footnote 2 .
Table 2: Total gross final energy consumption in the additional energy efficiency scenario for alldemand sectors for the aggregate of all 27 European Union Member States. See Tables44, 46, 48, 50 and 52 for details.
Energy Share Average annual growth
2005 2010 2015 2020 ’05 – ’10 ’10 – ’15 ’15 – ’20[Mtoe] [Mtoe] [Mtoe] [Mtoe] [%]a [%/year] [%/year] [%/year]
Electricity 268 283 293 304 26 1.1 0.7 0.7Heating and cooling 552 543 532 521 44 -0.3 -0.4 -0.4Transport 299 313 315 312 26 0.9 0.1 -0.2
Total before aviation 1166 1189 1192 1189 100 0.4 0.0 0.0Total after aviation 1162 1184 1185 1180 99 0.4 0.0 -0.1
a The percentage refers to the share of the demand sectors (electricity, heating and cooling and transport) in total grossfinal energy consumption before aviation reduction in the year 2020.
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Table 3: Total contribution from renewable energy sources (RES) for all 27 European UnionMember States (EU-27). This table has been compiled based on the aggregate RESvalues as specified in the NREAPs. See report Tables 53 to 56 (pages 46 to 49) forcountry-specific details.
Energy Share Average annual growth
2005 2010 2015 2020 2020 2005 – 2010 2010 – 2015 2015 – 2020[Mtoe] [Mtoe] [Mtoe] [Mtoe] [%]a [%/year] [%/year] [%/year]
RES-E 41.1 55.0 76.3 103.1 42 6.0 6.8 6.2RES-H/C 54.7 67.9 84.8 111.6 46 4.4 4.5 5.7RES-T 3.9 15.1 21.4 32.1 13 31.2 7.2 8.5RES-T*b 4.1 15.8 22.8 35.3 - 30.8 7.6 9.1
Total RESc 98.7 137.0 181.0 244.6 100 6.8 5.7 6.2
a The percentage refers to the share of the renewable energy types (electricity, heating and cooling and transport) intotal renewable energy in the year 2020.b In ‘RES-T*’ the amount of renewable energy in transport is reported according to the Renewable Energy Directive(2009/28/EC). Renewable electricity in electric road vehicles is to be accounted for 2.5 times the energy content ofthe input of electricity from renewable energy sources (Article 3.4c). Moreover, the contribution of biofuels producedfrom wastes, residues, non-food cellulosic material, and ligno-cellulosic material is to be considered twice that of otherbiofuels (Article 21.2).c Note that the column ‘Total RES’ is not corresponding to the sum of the individual RES subcategories. Reason forthis is the required correction for ‘renewable electricity in transport’. This correction has not by all Member States beenconsistently performed. See Tables 44, 46, 48, 50 and 52 for details (column ‘All RES’ versus column ‘RES-E,H/C,T’).All 27 European Union Member States (EU-27) have been considered in this table. This regards the following coun-tries: Austria, Belgium, Bulgaria, Cyprus, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece,Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Poland, Portugal, Romania, Slovenia,Slovakia, Spain, Sweden and the United Kingdom.
Table 4: Overall renewable energy share in the aggregate of all 27 European Union MemberStates. Data calculated from Table 11 on renewable energy and Tables 1 and 2 on grossfinal energy consumption according to the two scenarios. The ‘additional efficiencyscenario’ after aviation reduction is leading for calculating the renewable energy share.
Reference scenario Additional efficiency scenario
2005 2010 2015 2020 2005 2010 2015 2020[%] [%] [%] [%] [%] [%] [%] [%]
Electricity 15.3 19.3 24.9 31.3 15.3 19.4 26.1 34.0Heating and cooling 9.9 12.2 14.9 19.2 9.9 12.5 15.9 21.4Transporta 1.3 4.7 6.3 9.2 1.3 4.8 6.8 10.3Transport targetb 1.4 4.9 6.8 10.1 1.4 5.0 7.2 11.3
Total before aviation reduction 8.5 11.3 14.3 18.6 8.5 11.5 15.2 20.6Total after aviation reduction 8.5 11.3 14.4 18.7 8.5 11.6 15.3 20.7
a The share for transport simply expresses the share of RES-T (excluding double counting of renewable electricity,hydrogen and biogas in transport, as specified in Article 5.8 in the Directive) in gross final energy consumption and isnot to be interpreted as the renewable share in transport.b In ‘Transport target’ the share of renewable energy in transport is reported according to the Renewable EnergyDirective (2009/28/EC). See footnote b in Table 3.
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Detailed information from RES-specific projections
This section takes the technology-specific tables from the NREAPs as a starting point, whichyields slightly different values compared to the findings from Table 4. The reason for this canbe found in internal inconsistencies in the NREAP documents (in some cases total values do notmatch the categories they sum, see also footnote e in Table 9 and footnote c in Table 3).
Renewable electricity (RES-E)
Table 5 shows the breakdown of the renewable electricity technologies into subcategories (whereapplicable) and Table 6 shows calculated growth rates. For new renewables such as wind power,solar PV and tidal, wave and ocean energy double-digit growth rates result. For individual coun-tries data can be found in the tables in the technology-specific chapters of the report (relevantpage numbers have been indicated in the last columns).
Taking a closer look at the mix of renewable electricity technologies for the year 2020 (Table 5),it can be observed that the most important contribution is expected from wind power (40.7% ofwhich onshore wind power contributes 28.9%-point). The second largest technology is expectedto be hydropower (30.4% of all RES-E in 2020, of which large hydropower takes 25.4%-point).Biomass electricity is responsible for 19.1% and solar electricity for 8.5% (6.9%-point from pho-tovoltaics).
Renewable heating and cooling (RES-H/C)
Table 7 shows the contribution of the renewable heating and cooling technologies in detail andTable 8 shows calculated growth rates. For renewable heating and cooling the largest share inthe year 2020 is from biomass (81.1%), notably solid biomass (72.6%). Second is renewableenergy from heat pumps (10.9%), followed by solar thermal (5.7%) and deep geothermal heat(2.4%). In the original NREAP for Romania the technology breakdown of renewable heating andcooling was not available, reason for which this table deviates significantly from the one in theFebruary 1st, 2011 version of the current report. In 2011 Romania has provided the informationin a seperate update which has been integrated in this version of the report. Looking at Table 8 itcan be seen that growth rates generally are higher for the non-biomass options (except biogas).
Renewable energy in transport (RES-T)
Table 9 shows the contribution of the renewable transport energy carriers and Table 10 showscalculated growth rates. According to this table, biodiesel has the largest contribution in 2020(65.9%), followed by bio-ethanol / bio-ETBE (22.2%). In the original NREAP for Romaniathe technology breakdown of renewable transport was not available, reason for which this tabledeviates significantly from the one in the February 1st, 2011 version of the current report. In 2011Romania has provided the requested information in a seperate update which has been integratedin this version of the report (see also Section 1.8.23 in the main report available from www.ecn.nl/nreap for other issues on the Romanian 2011 update). The tables in the report (see the pagenumbers in the last column of Table 9) provide more information about the shares of Article 21.2biofuels and imported biofuels. Renewable electricity also has a significant contribution, but thisdoes not count towards the overall renewable energy production as specified in Article 5.1 of theDirective. Romania is the first European Member States projecting a small contribution fromrenewable hydrogen in transport (see footnote c in Table 9).
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Table 5: Total renewable electricity (RES-E) capacity and energy for all 27 European UnionMember States
2005 2010 2015 2020 [%]a [%]b Page
Hydropower < 1MW [GW] 2.7 2.9 3.1 3.4 66[TWh] 11.3 11.0 11.7 12.6 67[Mtoe] 1.0 0.9 1.0 1.1 1.0 0.4 -
Hydropower 1MW – 10 MW [GW] 9.4 9.9 11.2 12.5 66[TWh] 34.0 34.1 36.6 40.3 67[Mtoe] 2.9 2.9 3.1 3.5 3.3 1.4 -
Hydropower >10MW [GW] 101.4 99.1 104.6 112.4 66[TWh] 294.8 291.8 299.3 309.5 67[Mtoe] 25.3 25.1 25.7 26.6 25.4 10.8 -
Pumped storage hydropower [GW] 23.4 28.1 32.0 39.5 66[TWh] 23.9 23.6 27.7 32.6 67[Mtoe] 2.1 2.0 2.4 2.8 n.a. n.a. -
Hydropower (subtotal excluding pumped storage) [GW] 119.4 122.4 130.0 139.7 66[TWh] 340.9 342.7 354.0 369.3 67[Mtoe] 29.3 29.5 30.4 31.8 30.4 12.9 -
Geothermal [GW] 0.7 0.8 1.0 1.6 68[TWh] 5.5 6.0 7.3 10.9 69[Mtoe] 0.5 0.5 0.6 0.9 0.9 0.4 -
Solar photovoltaic [GW] 2.2 25.5 54.4 84.4 70[TWh] 1.5 20.1 51.8 83.4 71[Mtoe] 0.1 1.7 4.5 7.2 6.9 2.9 -
Concentrated solar power [GW] 0.0 0.6 3.6 7.0 70[TWh] 0.0 1.2 9.0 20.0 71[Mtoe] 0.0 0.1 0.8 1.7 1.6 0.7 -
Solar (subtotal) [GW] 2.2 26.1 58.0 91.4 70[TWh] 1.5 21.3 60.8 103.3 71[Mtoe] 0.1 1.8 5.2 8.9 8.5 3.6 -
Tidal, wave and ocean energy [GW] 0.2 0.2 0.4 2.3 72[TWh] 0.5 0.5 0.9 6.5 73[Mtoe] 0.0 0.0 0.1 0.6 0.5 0.2 -
Onshore wind [GW] 39.8 82.2 126.7 168.8 74[TWh] 66.9 155.5 257.7 351.8 75[Mtoe] 5.7 13.4 22.2 30.2 28.9 12.3 -
Offshore wind [GW] 0.7 2.6 15.6 44.2 74[TWh] 1.9 8.7 49.9 142.5 75[Mtoe] 0.2 0.7 4.3 12.2 11.7 5.0 -
Wind power (subtotal) [GW] 40.4 84.9 143.2 213.6 74[TWh] 70.4 164.6 309.2 494.8 75[Mtoe] 6.1 14.1 26.6 42.5 40.7 17.3 -
Solid biomass [GW] 10.6 14.4 20.8 27.7 76[TWh] 55.1 76.8 113.8 154.9 77[Mtoe] 4.7 6.6 9.8 13.3 12.7 5.4 -
Biogas [GW] 2.7 5.4 7.9 11.2 76[TWh] 12.5 28.7 43.9 64.0 77[Mtoe] 1.1 2.5 3.8 5.5 5.3 2.2 -
Bioliquids [GW] 0.4 1.0 1.4 1.7 76[TWh] 1.5 8.6 10.9 12.7 77[Mtoe] 0.1 0.7 0.9 1.1 1.0 0.4 -
Biomass (subtotal) [GW] 15.7 22.6 32.4 43.6 76[TWh] 60.2 103.7 169.0 232.0 77[Mtoe] 5.2 8.9 14.5 19.9 19.1 8.1 -
Total renewable electricity [TWh] 479.0 638.7 901.2 1216.8 -[Mtoe] 41.2 54.9 77.5 104.6 100.0 42.5 -
‘Pumped storage hydropower’ has not been considered in the values for totals and subtotalsa The percentage refers to the share of the individual technologies in total renewable electricity in the year 2020b The percentage refers to the share of the individual technologies in total renewable energy (electricity, heating andcooling and transport) in the year 2020
14 ECN-E--10-069
Table 6: Average annual growth of renewable electricity (RES-E) capacity and energy for all 27European Union Member States
2005 – 2010 2010 – 2015 2015 – 2020[%/year] [%/year] [%/year]
Hydropower < 1MW Capacity 1.0 1.8 1.7Energy -0.6 1.2 1.5
Hydropower 1MW – 10 MW Capacity 1.1 2.5 2.1Energy 0.1 1.4 1.9
Hydropower >10MW Capacity -0.4 1.1 1.4Energy -0.2 0.5 0.7
Pumped storage hydropower Capacity 3.8 2.6 4.3Energy -0.2 3.3 3.3
Hydropower (subtotal excluding pumped storage) Capacity 0.5 1.2 1.5Energy 0.1 0.7 0.9
Geothermal Capacity 1.9 5.0 9.1Energy 1.8 4.2 8.2
Solar photovoltaic Capacity 62.9 16.4 9.2Energy 68.8 20.8 10.0
Concentrated solar power Capacity n.a. 41.2 14.5Energy n.a. 51.0 17.2
Solar (subtotal) Capacity 63.7 17.3 9.5Energy 70.7 23.4 11.2
Tidal, wave and ocean energy Capacity 0.4 8.7 43.4Energy -1.3 11.5 49.7
Onshore wind Capacity 15.6 9.1 5.9Energy 18.4 10.6 6.4
Offshore wind Capacity 30.5 43.2 23.2Energy 35.2 41.9 23.4
Wind power (subtotal) Capacity 16.0 11.0 8.3Energy 18.5 13.4 9.9
Solid biomass Capacity 6.3 7.7 5.9Energy 6.9 8.2 6.4
Biogas Capacity 15.2 7.8 7.3Energy 18.1 8.9 7.8
Bioliquids Capacity 23.1 6.7 3.5Energy 42.5 4.9 3.1
Biomass (subtotal) Capacity 7.5 7.4 6.1Energy 11.5 10.3 6.5
Average renewable electricity Energy 5.9 7.1 6.2
The growth rates for subcategories of technologies in this table have been calculated from the projections in Table 5
ECN-E--10-069 15
Table 7: Total renewable heating and cooling (RES-H/C) energy for all 27 European UnionMember States
2005 2010 2015 2020 Share Share Page[Mtoe] [Mtoe] [Mtoe] [Mtoe] [%]a [%]b
Geothermal 0.4 0.7 1.3 2.6 2.4 1.1 78Solar thermal 0.7 1.4 3.0 6.3 5.7 2.6 79Solid biomass 47.7 56.6 66.2 81.0 72.6 32.9 80Biogasc 0.6 1.5 2.9 5.1 4.5 2.1 80Bioliquids 1.1 3.6 4.1 4.4 4.0 1.8 80Biomass (subtotal) 52.6 61.7 73.1 90.4 81.1 36.8 80Aerothermal heat pumps 0.1 2.3 3.7 6.3 5.6 2.6 81Geothermal heat pumps 0.2 1.2 2.4 4.2 3.8 1.7 81Hydrothermal heat pumps 0.0 0.2 0.4 0.6 0.5 0.2 81Renewable energy from heat pumps (subtotal) 0.6 4.0 7.2 12.2 10.9 4.9 81
Total renewable heating and coolingd 54.3 67.8 84.7 111.5 100.0 45.4 -
a The percentage refers to the share of the individual technologies in total renewable heating and cooling in the year2020.b The percentage refers to the share of the individual technologies in total renewable energy (electricity, heating andcooling and transport) in the year 2020.c In ‘biogas’ the value for ‘Bio-SNG for grid feed-in’ as specified in the Dutch NREAP has been included.
Table 8: Average annual growth for renewable heating and cooling (RES-H/C) energy for all 27European Union Member States
2005 – 2010 2010 – 2015 2015 – 2020[%/year] [%/year] [%/year]
Geothermal 9.8 14.4 14.3Solar thermal 16.0 15.8 16.0Solid biomass 3.5 3.2 4.1Biogasa 18.8 13.9 11.8Bioliquids 26.3 2.4 1.5Biomass (subtotal) 3.2 3.5 4.3Aerothermal heat pumps 74.6 10.4 10.9Geothermal heat pumps 37.1 15.2 12.3Hydrothermal heat pumps 50.6 9.5 9.7Renewable energy from heat pumps (subtotal) 45.5 12.5 10.9
Average renewable heating and cooling 4.5 4.6 5.7
a In ‘biogas’ the value for ‘Bio-SNG for grid feed-in’ as specified in the Dutch NREAP has been includedThe growth rates for subcategories of technologies in this table have been calculated from the projections in Table 7
16 ECN-E--10-069
Table 9: Total renewable transport (RES-T) energy for all 27 European Union Member States2005 2010 2015 2020 Share Share Page
[Mtoe] [Mtoe] [Mtoe] [Mtoe] [%]a [%]b
Bioethanol / bio-ETBE 0.5 2.9 5.0 7.3 22.2 3.0 82Biodiesel 2.4 11.0 14.5 21.6 65.9 8.8 83Hydrogen from renewablesc 0.0 0.0 0.0 0.0 0.0 - 84Renewable electricity 1.1 1.3 2.0 3.1 9.5 - 85Other biofuels 0.2 0.2 0.3 0.8 2.4 0.3 86
Total renewable transportd 4.2 15.3 21.7 32.9 100.0 - -
Total renewable transport Article 5.1e 3.1 14.0 19.8 29.7 90.5 12.1 -
a The percentage refers to the share of the individual technologies in total renewable transport in the year 2020.b The percentage refers to the share of the individual technologies in total renewable energy (electricity, heating andcooling and transport) in the year 2020. This value is not available for electricity and hydrogen from renewable energy,see footnote d.c Romania reported in the updated Template Table 12 (2011) a contribution of 2.4 ktoe ‘Renewable hydrogen’ (0.0024Mtoe) and is the only Member State that provided a non-negative estimate for this energy carrier.d The value ‘Total renewable transport’ has not been corrected as indicated in Article 5.1 of Directive 2009/28/EC.e The ‘Total renewable transport Article 5.1’ has been calculated by substracting electricity and hydrogen from renew-able energy values from ‘Total renewable transport’. This is to avoid double counting as indicated in Article 5.1 ofDirective 2009/28/EC. The category ‘other biofuels’ has not been applied for the correction. The resulting values areused for determining the overall renewable energy production in Table 11.
Table 10: Average annual growth for renewable transport (RES-T) for all 27 European UnionMember States
2005 – 2010 2010 – 2015 2015 – 2020[%/year] [%/year] [%/year]
Bioethanol / bio-ETBE 40.3 11.6 8.0Biodiesel 35.7 5.8 8.3Hydrogen from renewablesc n.a. n.a. n.a.Renewable electricity 3.7 8.6 9.6Other biofuels 1.2 4.9 24.1
Average renewable transport 29.6 7.2 8.6
ECN-E--10-069 17
Table 11: Total contribution from renewable energy sources (RES) for all 27 European UnionMember States. See Tables 7 to 10 for underlying data. The values have beencalculated from the detailed, technology-specific NREAP projections and differslightly from the values presented in Table 3, which has been compiled based onaggregate RES values as available from the NREAPs as well.
Energy Share Average annual growth
2005 2010 2015 2020 2005 – 2010 2010 – 2015 2015 – 2020[Mtoe] [Mtoe] [Mtoe] [Mtoe] [%]a [%/year] [%/year] [%/year]
RES-E 41.2 54.9 77.5 104.6 43 5.9 7.1 6.2RES-H/C 54.3 67.8 84.7 111.5 45 4.5 4.6 5.7RES-T b 3.1 14.0 19.8 29.7 12 35.2 7.1 8.5
Total RES 98.6 136.8 182.0 245.9 100 6.8 5.9 6.2
a The percentage refers to the share of the renewable energy types (electricity, heating and cooling and transport) intotal renewable energy in the year 2020b Total renewable energy for transport has been corrected for electricity and hydrogen from renewable energy sourcesas indicated in Article 5.1 of Directive 2009/28/EC. See Table 9.All 27 European Union Member States (EU-27) have been considered in this table. This regards the following coun-tries: Austria, Belgium, Bulgaria, Cyprus, the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece,Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Poland, Portugal, Romania, Slovenia,Slovakia, Spain, Sweden and the United Kingdom.
Renewable energy share according to detailed projections
Table 11 indicates that the total gross production from renewable energy sources (RES) (ex-cluding pumped storage hydropower and for renewable transport corrected for double countingaccording to Article 5.1 of the Directive) amounts to 245.8 Mtoe in the year 20205. Note that thisvalue, calculated from the detailed renewable energy projections for RES-E, RES-H/C and RES-T, differs from the value reported in Table 3 (244.5 Mtoe). As the deviations are relatively small,it can be observed that the different contributions from renewable energy largely are in line withthe data presented in Table 3. Renewable heating and cooling contributes 45% in 2020 insteadof 46% and renewable electricity 43% in 2020 instead of 42%. Renewable transport (RES-T)remains unchanged with a 12% contribution to the overall renewable target, as does the value forthe average annual growth.
Using these slightly different RES projections as input to calculate the shares in gross final energyconsumption, the resulting shares also will be different. This has been displayed in Table 12. Forthe year 2020 the ‘additional efficiency scenario after aviation reduction’ results in a share of20.8%, slightly higher than the 20.7% reported in Table 4. The reason for this is that someNREAP documents have internal inconsistencies, i.e. aggregate values do not match betweentables. This can be observed also from the country tables in this report (pages 88 to 114). Thishas been improved with the 2011 update provided by the Member States, but some issues stillremain. Based on the detailed projections no share of renewable transport has been calculated.
Differences between the two approaches
Comparing Table 4 to Table 12 it becomes clear that differences exist between the two approachesintroduced on page 9. The reason for this can be found in internal inconsistencies in the NREAPdocuments, which highlights the need for a thorough check of all projections from the MemberStates, and a recalculation of the NREAP for some of the Member States.
5The NREAP for Romania doesn’t pronounce on detailed projections for renewable heating and cooling and re-newable transport (Template Tables 11 and 12 are missing), these projections have been taken from the data overviewpresented in Tables 53 to 56 for the purpose of this overview table.
18 ECN-E--10-069
Table 12: Overall renewable energy share in the aggregate of all 27 European Union MemberStates. Data calculated from Table 3 on renewable energy (based on detailedprojections) and Tables 1 and 2 on gross final energy consumption according to thetwo scenarios. The ‘additional efficiency scenario’ after aviation reduction is leadingfor calculating the renewable energy share. Note that the value 20.8% differs slightlyfrom the value 20.7% from Table 4. This is caused by internal inconsistencies in theNREAPs.
Reference scenario Additional efficiency scenario
2005 2010 2015 2020 2005 2010 2015 2020[%] [%] [%] [%] [%] [%] [%] [%]
Electricity 15.3 19.2 25.3 31.8 15.3 19.4 26.5 34.5Heating and cooling 9.8 12.2 14.9 19.2 9.8 12.5 15.9 21.4Transporta 1.0 4.4 5.9 8.5 1.0 4.5 6.3 9.5
Total before aviation reduction 8.5 11.3 14.4 18.7 8.5 11.5 15.3 20.7Total after aviation reduction 8.5 11.3 14.5 18.8 8.5 11.5 15.4 20.8
a The share for transport simply expresses the share of RES-T (excluding double counting of renewable electricity,hydrogen and biogas in transport, as specified in Article 5.8 in the Directive) in gross final energy consumption andis not to be interpreted as the renewable share in transport. Based on the detailed projections no share of renewabletransport has been calculated.
ECN-E--10-069 19
Targets and trajectories
ECN-E--10-069 21
Targets and trajectories 28 NOV 2011
Table 13: Renewable energy shares from Annex I of the Directive [%]
Reference Indicative trajectory Target2005 2011-2012 2013-2014 2015-2016 2017-2018 2020
[%] [%] [%] [%] [%] [%]Belgium 2.2 4.4 5.4 7.1 9.2 13Bulgaria 9.4 10.7 11.4 12.4 13.7 16Czech Republic 6.1 7.5 8.2 9.2 10.6 13Denmark 17.0 19.6 20.9 22.9 25.5 30Germany 5.8 8.2 9.5 11.3 13.7 18Estonia 18.0 19.4 20.1 21.2 22.6 25Ireland 3.1 5.7 7.0 8.9 11.5 16Greece 6.9 9.1 10.2 11.9 14.1 18Spain 8.7 11.0 12.1 13.8 16.0 20France 10.3 12.8 14.1 16.0 18.6 23Italy 5.2 7.6 8.7 10.5 12.9 17Cyprus 2.9 4.9 5.9 7.4 9.5 13Latvia 32.6 34.1 34.8 35.9 37.4 40Lithuania 15.0 16.6 17.4 18.6 20.2 23Luxembourg 0.9 2.9 3.9 5.4 7.5 11Hungary 4.3 6.0 6.9 8.2 10.0 13Malta 0.0 2.0 3.0 4.5 6.5 10Netherlands 2.4 4.7 5.9 7.6 9.9 14Austria 23.3 25.4 26.5 28.1 30.3 34Poland 7.2 8.8 9.5 10.7 12.3 15Portugal 20.5 22.6 23.7 25.2 27.3 31Romania 17.8 19.0 19.7 20.6 21.8 24Slovenia 16.0 17.8 18.7 20.1 21.9 25Slovakia 6.7 8.2 8.9 10.0 11.4 14Finland 28.5 30.4 31.4 32.8 34.7 38Sweden 39.8 41.6 42.6 43.9 45.8 49United Kingdom 1.3 4.0 5.4 7.5 10.2 15All percentages originate from Annex I of Directive 2009/28/EC. The indicative trajectory has been calculated fromPart B of the Annex
22 ECN-E--10-069
28 NOV 2011 Targets and trajectories
0
10
20
30
40
50
60
Belg
ium
Bulg
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Czech R
epublic
Denm
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Germ
any
Esto
nia
Irela
nd
Gre
ece
Spain
Fra
nce
Italy
Cyp
rus
Latv
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Lithuania
Luxem
bourg
Hungary
Malta
Neth
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Austr
ia
Pola
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Port
ugal
Rom
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Slo
venia
Slo
vakia
Fin
land
Sw
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United K
ingdom
[%]2005 (Annex I of Directive 2009/28/EC)
2005 (calculated in NREAP)
2020 (Annex I of Directive 2009/28/EC)
2020 (projected in NREAP)
Figure 1: Renewable energy shares according to Annex I of Directive 2009/28/EC andaccording to the NREAP documents (Table 3 of the Template)
Table 14: Renewable energy shares according to Annex I of Directive 2009/28/EC andaccording to the NREAP documents (Table 3 of the Template)
2005 2020
Target NREAP Target NREAP[%] [%] [%] [%]
Belgium 2.2 2.2 13.0 13.0Bulgaria 9.4 9.6 16.0 16.0Czech Republic 6.1 6.1 13.0 13.5Denmark 17.0 17.0 30.0 30.4Germany 5.8 6.5 18.0 19.6Estonia 18.0 16.6 25.0 25.0Ireland 3.1 3.1 16.0 16.0Greece 6.9 7.0 18.0 18.0Spain 8.7 8.3 20.0 22.7France 10.3 9.6 23.0 23.0Italy 5.2 4.9 17.0 17.0Cyprus 2.9 2.9 13.0 13.0Latvia 32.6 32.6 40.0 40.0Lithuania 15.0 15.0 23.0 24.0Luxembourg 0.9 0.9 11.0 11.0Hungary 4.3 4.2 13.0 14.7Malta 0.0 n.a. 10.0 10.2Netherlands 2.4 2.5 14.0 14.5Austria 23.3 23.3 34.0 34.2Poland 7.2 n.a. 15.0 15.5Portugal 20.5 19.8 31.0 31.0Romania 17.8 17.9 24.0 24.0Slovenia 16.0 16.2 25.0 25.3Slovakia 6.7 6.7 14.0 14.0Finland 28.5 28.8 38.0 38.0Sweden 39.8 39.7 49.0 50.2United Kingdom 1.3 1.4 15.0 15.0
Both reference (due to problems in reproduing the historic value) and target (for example by not reaching or by ex-ceeding it) may vary between Annex I of the Directive and the data from the NREAP documents
ECN-E--10-069 23
Targets and trajectories 28 NOV 2011
Table 15: Belgium: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 4.4 4.4 4.4 5.2 4.82013-2014 5.4 5.4 5.8 6.8 6.32015-2016 7.1 7.1 7.5 8.6 8.12017-2018 9.2 9.2 9.5 10.7 10.12020 13.0 13.0 13.0 13.0
For more detail on Belgium see the country factsheet on page 88. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 16: Bulgaria: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 10.7 10.7 10.7 10.7 10.72013-2014 11.4 11.4 11.4 11.4 11.42015-2016 12.4 12.4 12.4 12.4 12.42017-2018 13.7 13.7 13.7 13.7 13.72020 16.0 16.0 16.0 16.0
For more detail on Bulgaria see the country factsheet on page 89. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 17: Czech Republic: indicative trajectory for the overall renewable energy share [%] forthe reference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 7.5 7.5 9.4 10.1 9.82013-2014 8.2 8.2 10.8 11.3 11.12015-2016 9.2 9.2 11.8 12.1 12.02017-2018 10.6 10.6 12.5 12.9 12.72020 13.0 13.0 13.5 13.5
For more detail on Czech Republic see the country factsheet on page 90. The reference to Table 3 is to the Template,prepared by the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 18: Denmark: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 19.6 19.6 23.4 24.2 23.82013-2014 20.9 20.9 27.3 27.2 27.32015-2016 22.9 22.9 27.6 28.2 27.92017-2018 25.5 25.5 28.6 29.1 28.92020 30.0 30.0 30.4 30.4
For more detail on Denmark see the country factsheet on page 91. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
24 ECN-E--10-069
28 NOV 2011 Targets and trajectories
Table 19: Germany: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 8.2 8.2 10.8 11.4 11.12013-2014 9.5 9.5 12.0 12.8 12.42015-2016 11.3 11.3 13.5 14.4 14.02017-2018 13.7 13.7 15.7 16.7 16.22020 18.0 18.0 19.6 19.6
For more detail on Germany see the country factsheet on page 92. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 20: Estonia: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 19.4 19.4 21.2 22.0 21.62013-2014 20.1 20.1 23.3 23.4 23.42015-2016 21.2 21.2 23.6 23.7 23.72017-2018 22.6 22.6 24.2 24.5 24.42020 25.0 25.0 25.0 25.0
For more detail on Estonia see the country factsheet on page 93. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 21: Ireland: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 5.7 5.7 6.7 7.6 7.22013-2014 7.0 7.0 8.6 9.1 8.92015-2016 8.9 8.9 10.3 10.7 10.52017-2018 11.5 11.5 11.9 13.0 12.52020 16.0 16.0 16.0 16.0
For more detail on Ireland see the country factsheet on page 94. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 22: Greece: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 9.1 9.1 8.8 9.5 9.22013-2014 10.2 10.2 9.9 10.5 10.22015-2016 11.9 11.9 11.4 12.4 11.92017-2018 14.1 14.1 13.7 14.6 14.22020 18.0 18.0 18.0 18.0
For more detail on Greece see the country factsheet on page 95. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
ECN-E--10-069 25
Targets and trajectories 28 NOV 2011
Table 23: Spain: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 11.0 11.0 14.2 14.8 14.52013-2014 12.1 12.1 15.4 16.5 16.02015-2016 13.8 13.8 17.4 18.3 17.92017-2018 16.0 16.1 19.4 20.4 19.92020 20.0 20.0 22.7 22.7
For more detail on Spain see the country factsheet on page 96. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 24: France: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 12.8 12.2 13.5 14.0 13.82013-2014 14.1 13.5 15.0 16.0 15.52015-2016 16.0 15.5 17.0 18.0 17.52017-2018 18.6 18.3 19.5 20.5 20.02020 23.0 23.0 23.0 23.0
For more detail on France see the country factsheet on page 97. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 25: Italy: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 7.6 7.6 8.7 9.2 8.92013-2014 8.7 8.7 9.9 10.5 10.22015-2016 10.5 10.5 11.2 12.0 11.62017-2018 12.9 12.9 12.9 13.8 13.42020 17.0 17.0 17.0 17.0
For more detail on Italy see the country factsheet on page 98. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 26: Cyprus: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 4.9 4.9 6.8 7.1 7.02013-2014 5.9 5.9 7.8 8.4 8.12015-2016 7.4 7.5 9.0 9.7 9.42017-2018 9.5 9.5 10.4 11.2 10.82020 13.0 13.0 13.0 13.0
For more detail on Cyprus see the country factsheet on page 99. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
26 ECN-E--10-069
28 NOV 2011 Targets and trajectories
Table 27: Latvia: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 34.1 34.1 33.8 34.3 34.12013-2014 34.8 34.8 34.7 35.0 34.92015-2016 35.9 35.9 35.6 36.3 36.02017-2018 37.4 37.4 37.0 37.7 37.42020 40.0 40.0 40.0 40.0
For more detail on Latvia see the country factsheet on page 100. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 28: Lithuania: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 16.6 16.6 17.0 18.0 17.52013-2014 17.4 17.4 19.0 20.0 19.52015-2016 18.6 18.6 21.0 22.0 21.52017-2018 20.2 20.2 24.0 24.0 24.02020 23.0 23.0 24.0 24.0
For more detail on Lithuania see the country factsheet on page 101. The reference to Table 3 is to the Template,prepared by the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 29: Luxembourg: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 2.9 2.9 2.9 2.9 2.92013-2014 3.9 3.9 3.9 3.9 3.92015-2016 5.4 5.5 5.4 5.4 5.42017-2018 7.5 7.5 7.5 7.5 7.52020 11.0 11.0 11.0 11.0
For more detail on Luxembourg see the country factsheet on page 102. The reference to Table 3 is to the Template,prepared by the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 30: Hungary: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 6.0 6.0 7.3 7.4 7.42013-2014 6.9 6.9 7.5 8.0 7.82015-2016 8.2 8.2 8.3 9.3 8.82017-2018 10.0 10.0 10.7 12.3 11.52020 13.0 13.0 14.7 14.7
For more detail on Hungary see the country factsheet on page 103. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
ECN-E--10-069 27
Targets and trajectories 28 NOV 2011
Table 31: Malta: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 2.0 2.0 2.3 2.6 2.52013-2014 3.0 3.0 3.8 5.4 4.62015-2016 4.5 4.5 5.5 6.8 6.22017-2018 6.5 6.5 9.7 9.6 9.72020 10.0 10.0 10.2 10.2
For more detail on Malta see the country factsheet on page 104. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 32: Netherlands: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 4.7 4.7 4.6 5.6 5.12013-2014 5.9 5.9 6.6 7.7 7.22015-2016 7.6 7.6 8.5 9.7 9.12017-2018 9.9 9.9 10.9 12.1 11.52020 14.0 14.0 14.5 14.5
For more detail on Netherlands see the country factsheet on page 105. The reference to Table 3 is to the Template,prepared by the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 33: Austria: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 25.4 26.3 31.4 31.6 31.52013-2014 26.5 27.3 31.8 32.1 32.02015-2016 28.1 28.7 32.3 32.6 32.52017-2018 30.3 30.6 32.9 33.3 33.12020 34.0 34.0 34.2 34.2
For more detail on Austria see the country factsheet on page 106. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 34: Poland: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 8.8 8.8 10.1 10.6 10.32013-2014 9.5 9.5 11.1 11.5 11.32015-2016 10.7 10.7 11.9 12.5 12.22017-2018 12.3 12.3 13.1 13.8 13.52020 15.0 15.0 15.5 15.5
For more detail on Poland see the country factsheet on page 107. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
28 ECN-E--10-069
28 NOV 2011 Targets and trajectories
Table 35: Portugal: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 22.6 22.0 25.2 26.9 26.12013-2014 23.7 23.1 27.1 27.4 27.32015-2016 25.2 24.8 28.4 28.9 28.72017-2018 27.3 27.1 29.7 30.6 30.22020 31.0 31.0 31.0 31.0
For more detail on Portugal see the country factsheet on page 108. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 36: Romania: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 19.0 19.0 18.0 19.0 18.52013-2014 19.7 19.7 19.4 19.7 19.62015-2016 20.6 20.6 20.1 20.6 20.42017-2018 21.8 21.8 21.2 21.8 21.52020 24.0 24.0 24.0 24.0
For more detail on Romania see the country factsheet on page 109. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 37: Slovenia: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 17.8 17.8 18.2 18.7 18.52013-2014 18.7 18.7 19.5 20.1 19.82015-2016 20.1 20.0 21.2 21.8 21.52017-2018 21.9 21.8 22.4 23.6 23.02020 25.0 25.0 25.3 25.3
For more detail on Slovenia see the country factsheet on page 110. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 38: Slovakia: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 8.2 8.2 8.2 8.2 8.22013-2014 8.9 8.9 8.9 8.9 8.92015-2016 10.0 10.0 10.0 10.0 10.02017-2018 11.4 11.4 11.4 11.4 11.42020 14.0 14.0 14.0 14.0
For more detail on Slovakia see the country factsheet on page 111. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
ECN-E--10-069 29
Targets and trajectories 28 NOV 2011
Table 39: Finland: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 30.4 30.4 30.1 31.0 30.62013-2014 31.4 31.4 31.6 32.2 31.92015-2016 32.8 32.8 32.6 33.6 33.12017-2018 34.7 34.7 34.7 35.7 35.22020 38.0 38.0 38.0 38.0
For more detail on Finland see the country factsheet on page 112. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 40: Sweden: indicative trajectory for the overall renewable energy share [%] for thereference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 41.6 41.6 44.2 44.9 44.62013-2014 42.6 42.6 45.6 46.3 46.02015-2016 43.9 43.9 47.0 47.7 47.42017-2018 45.8 45.8 48.3 49.0 48.72020 49.0 49.0 50.2 50.2
For more detail on Sweden see the country factsheet on page 113. The reference to Table 3 is to the Template, preparedby the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
Table 41: United Kingdom: indicative trajectory for the overall renewable energy share [%] forthe reference years as mentioned in Annex I part B of Directive 2009/28/EC
Period Annex I part B NREAP
Template Table 3 First year Second year Average[%] [%] [%] [%] [%]
2011-2012 4.0 4.0 4.0 4.0 4.02013-2014 5.4 5.4 5.0 6.0 5.52015-2016 7.5 7.5 7.0 8.0 7.52017-2018 10.2 10.2 9.0 11.0 10.02020 15.0 15.0 15.0 15.0
For more detail on United Kingdom see the country factsheet on page 114. The reference to Table 3 is to the Template,prepared by the European Commission and available for download at http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009D0548:EN:NOT
30 ECN-E--10-069
Gross final energy consumption
ECN-E--10-069 31
Gross final energy consumption 28 NOV 2011
This section presents the gross final energy data as presented in Template Table 1. This table inthe Template gives expected gross final energy consumption in heating and cooling, electricityand transport. Starting with an identical value for the base year 2005, two scenarios are available:a ‘reference scenario’ and an ‘additional energy efficiency scenario’. The gross final energyconsumption for the purpose of measuring target compliance and evaluating the indicative trajec-tory is corrected for those Member States that have a large share of aviation in their gross finalconsumption of energy (see Article 5.6 in the Renewable Energy Directive (2009/28/EC)6. Theamount by which these countries exceed one-and-a-half times the European Community averagegross final consumption of energy in aviation in 2005 will be partially exempted. This resultsin a value ‘before aviation reduction’ and an a value ‘after aviation reduction’, which have beenreported in separate tables in this report.
As not all Member States apply the aviation reduction, the set of tables is not filled for eachcountry. Unavailable data are replaced by data matching most closely. The countries withoutReference scenario’ (Finland, the Netherlands and Slovenia) will report the series for ‘Additionalenergy efficiency’ for both scenarios. Member States without an ‘aviation reduction’ report thevalues without the reduction only, also in the table ‘after aviation reduction’. Doing so, the sumof all countries can be detemined even in the case of data unavailability.
Table 42 indicates the availability of the scenarios and the aviation reduction for each MemberState.
6At http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32009L0028:EN:NOT the Renewable En-ergy Directive is available for download
32 ECN-E--10-069
28 NOV 2011 Gross final energy consumption
Tabl
e42
:Ava
ilabi
lity
ofsc
enar
ios
and
the
avia
tion
redu
ctio
nfo
rea
chM
embe
rSt
ate.
Una
vaila
ble
data
are
repl
aced
byda
tam
atch
ing
mos
tclo
sely
inor
der
tore
port
the
sum
ofal
lcou
ntri
es.
Fina
lcon
sum
ptio
nH
eatin
gan
dco
olin
gE
lect
rici
tyTr
ansp
ort
Tota
lbef
ore
avia
tion
Tota
laft
erav
iatio
nR
efer
ence
Effi
cien
cyR
efer
ence
Effi
cien
cyR
efer
ence
Effi
cien
cyR
efer
ence
Effi
cien
cyR
efer
ence
Effi
cien
cyTa
ble
(pag
e)45
(36)
46(3
7)43
(34)
44(3
5)47
(38)
48(3
9)49
(40)
50(4
1)51
(42)
52(4
3)B
elgi
umx
xx
xx
xx
xn.
a.n.
a.B
ulga
ria
xx
xx
xx
xx
n.a.
n.a.
Cze
chR
epub
licx
xx
xx
xx
xn.
a.n.
a.D
enm
ark
xx
xx
xx
xx
xx
Ger
man
yx
xx
xx
xx
xn.
a.n.
a.E
ston
iax
xx
xx
xx
xn.
a.x
Irel
and
xx
xx
xx
xx
xx
Gre
ece
xx
xx
xx
xx
n.a.
n.a.
Spai
nx
xx
xx
xx
xx
n.a.
Fran
cex
xx
xx
xx
xn.
a.x
Ital
yx
xx
xx
xx
xn.
a.n.
a.C
ypru
sx
xx
xx
xx
xx
xL
atvi
ax
xx
xx
xx
xn.
a.n.
a.L
ithua
nia
xx
xx
xx
xx
n.a.
n.a.
Lux
embo
urg
xx
xx
xx
xx
xx
Hun
gary
xx
xx
xx
xx
n.a.
n.a.
Mal
tax
xx
xx
xx
xn.
a.n.
a.N
ethe
rlan
dsn.
a.x
n.a.
xn.
a.x
n.a.
xn.
a.x
Aus
tria
xx
xx
xx
xx
n.a.
n.a.
Pola
ndx
xx
xx
xx
xn.
a.n.
a.Po
rtug
alx
xx
xx
xx
xn.
a.x
Rom
ania
xx
xx
xx
xx
n.a.
n.a.
Slov
enia
n.a.
xn.
a.x
n.a.
xn.
a.x
n.a.
n.a.
Slov
akia
xx
xx
xx
xx
n.a.
n.a.
Finl
and
n.a.
xn.
a.x
n.a.
xn.
a.x
n.a.
n.a.
Swed
enx
xx
xx
xx
xn.
a.n.
a.U
nite
dK
ingd
omx
xx
xx
xx
xx
x
ECN-E--10-069 33
Final consumption electricity (reference scenario) [ktoe] 28 NOV 2011
Table43:Totalfinalenergy
consumption
[ktoe]electricity
forthe
referencescenario
Scenario2005
20102011
20122013
20142015
20162017
20182019
20202020
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[%]
Belgium
Reference
scenario7912
86708822
89739125
92769428
95399651
97629874
99853
Bulgaria
Reference
scenario3129
31303174
32183263
33093355
34023450
34983547
35971
Czech
Republic
Reference
scenario6014
61516338
64806621
67616903
70397189
73097427
75632
Denm
arkR
eferencescenario
31663144
31993247
33083367
34183454
34833507
35363564
1G
ermany
Reference
scenario51813
5197352063
5223252331
5245452554
5268952728
5276752733
5262716
Estonia
Reference
scenario738
829842
856869
883896
892907
921936
9510
IrelandR
eferencescenario
23412511
25252574
26322697
27642806
28402872
29042937
1G
reeceR
eferencescenario
54865061
53485376
54295456
54805586
57275842
60536179
2Spain
Reference
scenario25080
2505625616
2642827571
2858929647
3092632072
3327134517
3581611
FranceR
eferencescenario
4531747378
4779048202
4861549027
4943949851
5026350676
5108851500
16Italy
Reference
scenario29749
2950529908
3034430814
3131731853
3242333025
3366234331
3503411
Cyprus
Reference
scenario374
464486
508530
551573
595617
639661
6830
Latvia
Reference
scenario581
588603
618636
657686
733764
795827
8600
Lithuania
Reference
scenario985
913940
9731005
10291053
10751097
11331168
12040
Luxem
bourgR
eferencescenario
567553
556559
562565
568574
581588
595602
0H
ungaryR
eferencescenario
36093682
38013922
40014089
41694245
43164383
44444506
1M
altaR
eferencescenario
n.a.226
231238
245251
258265
271277
284291
0N
etherlandsA
dditionalefficiency10347
1062710743
1086010976
1109311210
1130411398
1149311587
116814
Austria
Reference
scenario5725
56345709
57955892
59916091
61996308
64256545
66662
PolandR
eferencescenario
n.a.12900
1340014000
1440014900
1530015700
1620016600
1710017400
5Portugal
Reference
scenario4558
47304748
47834825
48475076
52015327
55935655
57212
Rom
aniaR
eferencescenario
46015350
57105864
59946066
61896445
67406980
72117439
2Slovenia
Additionalefficiency
12721196
12161235
12541274
12931303
13121322
13321342
0Slovakia
Reference
scenario2412
24602603
26502698
27472796
28462898
29503003
30571
FinlandA
dditionalefficiency7530
75507770
78807990
81008210
83108400
85008640
87403
Sweden
Reference
scenario12987
1365013783
1391514048
1418114314
1444614579
1471214844
149775
United
Kingdom
Reference
scenario32100
3180032000
3230032600
3290033100
3330033500
3370033900
3420010
AllM
emberStates
(total)M
ixedscenarios
268393285731
289924294030
298234302377
306623311148
315643320177
324742329122
100
FortheN
etherlands,Sloveniaand
Finlandthe
‘Reference
scenario’isnotavailable.Forthese
Mem
berStates,projectionshave
beentaken
asreported
forthe‘A
dditionalefficiencyscenario’,see
Table44.
ForMalta
andPoland
nodata
areavailable
fortheyear2005.C
onsequently,thevalue
reportedhere
asE
Utotalin
2005is
actuallythe
valueforthe
EU
minus
Malta
andPoland
(inthe
year2010togetheram
ountingto
13.1M
toe).
34 ECN-E--10-069
28 NOV 2011 Final consumption electricity (additional energy efficiency) [ktoe]
Tabl
e44
:Fin
alen
ergy
cons
umpt
ion
[kto
e]fo
rel
ectr
icity
for
the
addi
tiona
lene
rgy
effic
ienc
ysc
enar
ioSc
enar
io20
0520
1020
1120
1220
1320
1420
1520
1620
1720
1820
1920
2020
20[k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][%
]
Bel
gium
Add
ition
alef
ficie
ncy
7912
8371
8462
8554
8646
8737
8829
8968
9108
9247
9387
9526
3B
ulga
ria
Add
ition
alef
ficie
ncy
3129
3130
3164
3182
3181
3175
3171
3163
3155
3148
3144
3148
1C
zech
Rep
ublic
Add
ition
alef
ficie
ncy
6014
6036
6210
6329
6449
6568
6697
6807
6927
7022
7118
7232
2D
enm
ark
Add
ition
alef
ficie
ncy
3166
3108
3130
3148
3179
3214
3234
3237
3235
3233
3238
3247
1G
erm
any
Add
ition
alef
ficie
ncy
5181
351
925
5183
051
615
5135
251
089
5058
850
229
4979
949
346
4884
448
317
16E
ston
iaA
dditi
onal
effic
ienc
y73
882
984
085
186
287
388
488
089
490
992
393
80
Irel
and
Add
ition
alef
ficie
ncy
2341
2473
2469
2500
2540
2587
2636
2677
2713
2746
2779
2813
1G
reec
eA
dditi
onal
effic
ienc
y54
8650
6152
1552
0952
2752
1752
8553
4554
7055
8357
5258
872
Spai
nA
dditi
onal
effic
ienc
y25
080
2505
625
513
2610
526
951
2759
328
264
2914
029
863
3062
531
421
3226
911
Fran
ceA
dditi
onal
effic
ienc
y45
317
4584
945
955
4606
246
168
4627
546
381
4648
746
594
4670
046
807
4691
315
Ital
yA
dditi
onal
effic
ienc
y29
749
3070
130
856
3100
931
161
3131
331
465
3161
831
770
3192
232
075
3222
711
Cyp
rus
Add
ition
alef
ficie
ncy
374
463
480
497
514
531
548
564
581
598
615
633
0L
atvi
aA
dditi
onal
effic
ienc
y58
158
459
660
862
063
364
666
568
470
472
574
60
Lith
uani
aA
dditi
onal
effic
ienc
y98
591
193
797
010
0210
2510
4810
6910
9011
2411
5811
930
Lux
embo
urg
Add
ition
alef
ficie
ncy
567
549
548
547
546
545
544
549
554
559
564
569
0H
unga
ryA
dditi
onal
effic
ienc
y36
0936
7537
8538
9839
6940
4741
1841
8542
4743
0843
6344
181
Mal
taA
dditi
onal
effic
ienc
yn.
a.21
522
022
623
223
824
424
925
425
926
527
00
Net
herl
ands
Add
ition
alef
ficie
ncy
1034
710
627
1074
310
860
1097
611
093
1121
011
304
1139
811
493
1158
711
681
4A
ustr
iaA
dditi
onal
effic
ienc
y57
2556
3456
5656
8457
1957
6358
1758
8559
7160
7762
1063
772
Pola
ndA
dditi
onal
effic
ienc
yn.
a.12
100
1230
012
500
1270
012
900
1310
013
400
1370
014
000
1430
014
600
5Po
rtug
alA
dditi
onal
effic
ienc
y45
5847
3047
4847
8348
2548
4750
7651
6952
6254
9155
1855
472
Rom
ania
Add
ition
alef
ficie
ncy
4601
5350
5383
5432
5527
5568
5655
5790
5975
6098
6216
6334
2Sl
oven
iaA
dditi
onal
effic
ienc
y12
7211
9612
1612
3512
5412
7412
9313
0313
1213
2213
3213
420
Slov
akia
Add
ition
alef
ficie
ncy
2412
2460
2556
2586
2617
2649
2681
2713
2745
2778
2812
2866
1Fi
nlan
dA
dditi
onal
effic
ienc
y75
3075
5077
7078
8079
9081
0082
1083
1084
0085
0086
4087
403
Swed
enA
dditi
onal
effic
ienc
y12
987
1308
913
109
1313
013
150
1317
013
191
1321
113
232
1325
213
273
1329
34
Uni
ted
Kin
gdom
Add
ition
alef
ficie
ncy
3210
031
700
3170
031
800
3190
032
000
3210
032
100
3210
032
200
3230
032
400
11
All
Mem
berS
tate
s(t
otal
)A
dditi
onal
effic
ienc
y26
8393
2833
7228
5391
2872
0028
9257
2910
2429
2915
2950
1729
7033
2992
4430
1366
3035
2610
0
Fort
he‘a
dditi
onal
ener
gyef
ficie
ncy’
scen
ario
allM
embe
rSta
tes
have
prov
ided
data
.Fo
rMal
taan
dPo
land
noda
taar
eav
aila
ble
fort
heye
ar20
05.C
onse
quen
tly,t
heva
lue
repo
rted
here
asE
Uto
tali
n20
05is
actu
ally
the
valu
efo
rthe
EU
min
usM
alta
and
Pola
nd(i
nth
eye
ar20
10to
geth
eram
ount
ing
to12
.3M
toe)
.
ECN-E--10-069 35
Final consumption heating and cooling (reference scenario) [ktoe] 28 NOV 2011
Table45:Totalfinalenergy
consumption
[ktoe]heating
andcooling
forthe
referencescenario
Scenario2005
20102011
20122013
20142015
20162017
20182019
20202020
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[%]
Belgium
Reference
scenario21804
2180421804
2180421804
2180421804
2180421804
2180421804
218044
Bulgaria
Reference
scenario4543
48514854
50365258
54615640
57655898
60086105
61931
Czech
Republic
Reference
scenario17644
1832618417
1841918514
1864518856
1900819170
1955419783
199923
Denm
arkR
eferencescenario
80718161
82328320
84008467
85128542
85768614
86678727
2G
ermany
Reference
scenario116842
111661111063
110132108794
107528106215
105164103420
101748100172
9876617
Estonia
Reference
scenario1615
15921601
16101619
16281637
16491661
16731686
16980
IrelandR
eferencescenario
55165184
52335216
52485307
53885477
55465613
56685724
1G
reeceR
eferencescenario
83558644
84018439
84648595
87438875
90709228
94239600
2Spain
Reference
scenario40254
3334032649
3255932393
3231832315
3225932180
3206731932
318375
FranceR
eferencescenario
6894972333
7300973686
7436375040
7571676393
7707077747
7842379100
14Italy
Reference
scenario68501
6419464491
6477465041
6529465532
6575565963
6615766335
6649911
Cyprus
Reference
scenario530
480483
489499
508517
525533
540546
5510
Latvia
Reference
scenario2607
22712316
23612416
24932604
27792962
29943042
31141
Lithuania
Reference
scenario2583
24172448
24972545
26212697
27242750
27952841
28860
Luxem
bourgR
eferencescenario
11891293
13031313
13241334
13441363
13811399
14171436
0H
ungaryR
eferencescenario
1219210520
1078010994
1132211116
1100810887
1075910625
1047610412
2M
altaR
eferencescenario
n.a.46
5658
6063
6668
7072
7476
0N
etherlandsA
dditionalefficiency28436
2461224614
2461524616
2461724618
2469224766
2484024914
249894
Austria
Reference
scenario13206
1200712172
1236012572
1278813009
1324513485
1374314005
142742
PolandR
eferencescenario
n.a.31600
3300034700
3590037300
3880040300
4180043200
4470046200
8Portugal
Reference
scenario7927
72867370
74547538
76227706
78397972
81058238
83711
Rom
aniaR
eferencescenario
1877916056
1610616643
1730318093
1894319179
1946019790
2016420696
4Slovenia
Additionalefficiency
22911996
20082019
20312043
20542049
20442039
20342029
0Slovakia
Reference
scenario6162
59716019
60676114
61626210
62586306
63536401
64491
FinlandA
dditionalefficiency13970
1401014380
1454014670
1483015000
1508015120
1517015260
153003
Sweden
Reference
scenario13190
1533915769
1619916628
1705817488
1791818347
1877719207
196373
United
Kingdom
Reference
scenario66900
6000059200
5860058100
5750056900
5630055800
5550055100
548009
AllM
emberStates
(total)M
ixedscenarios
552056555994
557778560904
563536566235
569322571897
573913576155
578417581160
100
FortheN
etherlands,Sloveniaand
Finlandthe
‘Reference
scenario’isnotavailable.Forthese
Mem
berStates,projectionshave
beentaken
asreported
forthe‘A
dditionalefficiencyscenario’,see
Table46.
ForMalta
andPoland
nodata
areavailable
fortheyear2005.C
onsequently,thevalue
reportedhere
asE
Utotalin
2005is
actuallythe
valueforthe
EU
minus
Malta
andPoland
(inthe
year2010togetheram
ountingto
31.6M
toe).
36 ECN-E--10-069
28 NOV 2011 Final consumption heating and cooling (additional energy efficiency) [ktoe]
Tabl
e46
:Fin
alen
ergy
cons
umpt
ion
[kto
e]fo
rhe
atin
gan
dco
olin
gfo
rth
ead
ditio
nale
nerg
yef
ficie
ncy
scen
ario
Scen
ario
2005
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[%]
Bel
gium
Add
ition
alef
ficie
ncy
2180
421
804
2180
421
804
2180
421
804
2180
421
804
2180
421
804
2180
421
804
4B
ulga
ria
Add
ition
alef
ficie
ncy
4543
4492
4413
4462
4509
4538
4539
4494
4557
4611
4626
4638
1C
zech
Rep
ublic
Add
ition
alef
ficie
ncy
1764
417
805
1783
717
765
1777
817
821
1796
318
083
1820
518
560
1874
218
680
4D
enm
ark
Add
ition
alef
ficie
ncy
8071
8042
8021
8021
8012
7991
7929
7858
7795
7732
7690
7653
1G
erm
any
Add
ition
alef
ficie
ncy
1168
4211
1597
1106
8110
9081
1073
6110
5498
1035
8810
1581
9955
197
449
9527
693
139
18E
ston
iaA
dditi
onal
effic
ienc
y16
1515
7215
7315
7415
7515
7615
7715
7715
7815
7815
7915
790
Irel
and
Add
ition
alef
ficie
ncy
5516
5160
5139
5065
5041
5043
5069
5102
5066
5029
4980
4931
1G
reec
eA
dditi
onal
effic
ienc
y83
5586
4483
7583
7684
7485
1786
5888
5990
1391
6694
0196
742
Spai
nA
dditi
onal
effic
ienc
y40
254
3334
032
465
3234
931
984
3167
131
452
3118
130
894
3054
630
189
2984
96
Fran
ceA
dditi
onal
effic
ienc
y68
949
6596
665
369
6477
364
176
6358
062
983
6238
661
790
6119
360
597
6000
012
Ital
yA
dditi
onal
effic
ienc
y68
501
5897
659
197
5941
859
639
5986
060
081
6030
160
522
6074
360
964
6118
512
Cyp
rus
Add
ition
alef
ficie
ncy
530
480
480
484
492
499
509
512
517
521
525
527
0L
atvi
aA
dditi
onal
effic
ienc
y26
0722
5122
8523
1923
5423
8924
2524
6124
9725
3525
7326
121
Lith
uani
aA
dditi
onal
effic
ienc
y25
8324
1724
2824
5424
8125
1426
0126
1826
3426
5026
6726
841
Lux
embo
urg
Add
ition
alef
ficie
ncy
1189
1235
1235
1235
1234
1234
1234
1241
1248
1255
1262
1268
0H
unga
ryA
dditi
onal
effic
ienc
y12
192
1049
710
724
1097
611
195
1092
010
742
1054
110
360
1018
110
028
9877
2M
alta
Add
ition
alef
ficie
ncy
n.a.
4555
5658
6063
6567
6971
730
Net
herl
ands
Add
ition
alef
ficie
ncy
2843
624
612
2461
424
615
2461
624
617
2461
824
692
2476
624
840
2491
424
989
5A
ustr
iaA
dditi
onal
effic
ienc
y13
206
1200
712
031
1206
112
099
1214
512
203
1227
612
367
1248
112
624
1280
22
Pola
ndA
dditi
onal
effic
ienc
yn.
a.32
400
3250
032
700
3280
032
900
3310
033
400
3380
034
100
3440
034
700
7Po
rtug
alA
dditi
onal
effic
ienc
y79
2772
8673
7074
5475
3876
2277
0678
0779
0680
0481
0181
972
Rom
ania
Add
ition
alef
ficie
ncy
1877
915
788
1618
416
525
1684
017
210
1757
217
708
1781
817
973
1814
018
316
4Sl
oven
iaA
dditi
onal
effic
ienc
y22
9119
9620
0820
1920
3120
4320
5420
4920
4420
3920
3420
290
Slov
akia
Add
ition
alef
ficie
ncy
6162
5971
5923
5876
5828
5780
5732
5685
5661
5637
5613
5613
1Fi
nlan
dA
dditi
onal
effic
ienc
y13
970
1401
014
380
1454
014
670
1483
015
000
1508
015
120
1517
015
260
1530
03
Swed
enA
dditi
onal
effic
ienc
y13
190
1444
814
700
1495
115
203
1545
515
706
1595
816
209
1646
116
713
1696
43
Uni
ted
Kin
gdom
Add
ition
alef
ficie
ncy
6690
060
000
5890
058
000
5710
056
200
5530
054
400
5350
052
900
5220
051
500
10
All
Mem
berS
tate
s(t
otal
)A
dditi
onal
effic
ienc
y55
2056
5428
4154
0691
5389
5353
6892
5343
1753
2208
5297
1952
7289
5252
2752
2973
5205
8310
0
Fort
he‘a
dditi
onal
ener
gyef
ficie
ncy’
scen
ario
allM
embe
rSta
tes
have
prov
ided
data
.Fo
rMal
taan
dPo
land
noda
taar
eav
aila
ble
fort
heye
ar20
05.C
onse
quen
tly,t
heva
lue
repo
rted
here
asE
Uto
tali
n20
05is
actu
ally
the
valu
efo
rthe
EU
min
usM
alta
and
Pola
nd(i
nth
eye
ar20
10to
geth
eram
ount
ing
to32
.4M
toe)
.
ECN-E--10-069 37
Final consumption transport (reference scenario) [ktoe] 28 NOV 2011
Table47:Totalfinalenergy
consumption
[ktoe]transportfor
thereference
scenarioScenario
20052010
20112012
20132014
20152016
20172018
20192020
2020[ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][%
]
Belgium
Reference
scenario8493
94859522
95529589
96299661
95919530
94639399
93333
Bulgaria
Reference
scenario2642
28302857
29283021
31103191
32523315
33723423
34731
Czech
Republic
Reference
scenario6007
61466169
62946389
64646506
65426577
67236584
65732
Denm
arkR
eferencescenario
41454207
42934397
43974411
44284436
44434445
44584464
1G
ermany
Reference
scenario53602
5242752331
5226852232
5222152187
5215052112
5207352035
5199615
Estonia
Reference
scenario746
789809
828847
867886
900913
927940
9540
IrelandR
eferencescenario
39124605
44304578
47405043
53115464
55895706
58245913
2G
reeceR
eferencescenario
65686774
67696779
68166828
68646945
70377094
71807257
2Spain
Reference
scenario32407
3089130816
3143332402
3346034391
3538236367
3738038408
3941011
FranceR
eferencescenario
4508053100
5350053900
5430054700
5510055500
5590056300
5670057500
16Italy
Reference
scenario39000
3646736848
3719037494
3775937986
3817438325
3843638509
3854411
Cyprus
Reference
scenario682
721722
733744
757771
783795
806816
8250
Latvia
Reference
scenario982
10991119
11451165
11901212
12311253
12741297
13200
Lithuania
Reference
scenario1133
13361376
14181461
15061554
16031654
17071761
18171
Luxem
bourgR
eferencescenario
24162309
23372365
23922420
24482475
25022529
25572584
1H
ungaryR
eferencescenario
39644107
44054592
47444897
50055116
52285342
54175492
2M
altaR
eferencescenario
n.a.152
154155
156158
159160
162163
164165
0N
etherlandsA
dditionalefficiency11351
1169911643
1158711531
1147511419
1126211105
1094810791
106343
Austria
Reference
scenario8945
83368453
85878739
88959055
92289407
96039809
100653
PolandR
eferencescenario
n.a.16800
1700017500
1750017700
1790018200
1840018600
1890019100
5Portugal
Reference
scenario6223
60406028
60166003
59925980
59865990
59966002
60102
Rom
aniaR
eferencescenario
41394856
51125259
54085556
57075814
59216027
61346239
2Slovenia
Additionalefficiency
15261735
17561777
17981819
18391862
18851907
19301953
1Slovakia
Reference
scenario1744
22212269
23412436
25082556
26272699
27942866
29381
FinlandA
dditionalefficiency4220
40304060
40604080
40904100
41104150
41504120
40801
Sweden
Reference
scenario7473
79238013
81038193
82838373
84638553
86438733
88233
United
Kingdom
Reference
scenario41704
4048540935
4142741746
4193642002
4203042013
4195741878
4177912
AllM
emberStates
(total)M
ixedscenarios
299104321570
323726327212
330323333674
336591339286
341825344365
346635349241
100
FortheN
etherlands,Sloveniaand
Finlandthe
‘Reference
scenario’isnotavailable.Forthese
Mem
berStates,projectionshave
beentaken
asreported
forthe‘A
dditionalefficiencyscenario’,see
Table48.
ForMalta
andPoland
nodata
areavailable
fortheyear2005.C
onsequently,thevalue
reportedhere
asE
Utotalin
2005is
actuallythe
valueforthe
EU
minus
Malta
andPoland
(inthe
year2010togetheram
ountingto
17.0M
toe).
38 ECN-E--10-069
28 NOV 2011 Final consumption transport (additional energy efficiency) [ktoe]
Tabl
e48
:Fin
alen
ergy
cons
umpt
ion
[kto
e]fo
rtr
ansp
ortf
orth
ead
ditio
nale
nerg
yef
ficie
ncy
scen
ario
Scen
ario
2005
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[%]
Bel
gium
Add
ition
alef
ficie
ncy
8493
9304
9306
9301
9304
9308
9306
9187
9077
8963
8852
8740
3B
ulga
ria
Add
ition
alef
ficie
ncy
2642
2776
2846
2872
2888
2895
2898
2900
2914
2929
2941
2952
1C
zech
Rep
ublic
Add
ition
alef
ficie
ncy
6007
6128
6139
6255
6342
6407
6429
6443
6456
6436
6416
6618
2D
enm
ark
Add
ition
alef
ficie
ncy
4145
4191
4267
4361
4350
4353
4353
4355
4353
4344
4342
4332
1G
erm
any
Add
ition
alef
ficie
ncy
5360
252
355
5218
852
021
5180
651
575
5127
950
655
5003
449
414
4885
748
302
15E
ston
iaA
dditi
onal
effic
ienc
y74
678
980
582
183
785
286
888
189
590
892
193
40
Irel
and
Add
ition
alef
ficie
ncy
3912
4564
4358
4482
4621
4905
5152
5308
5430
5542
5658
5747
2G
reec
eA
dditi
onal
effic
ienc
y65
6865
2864
3663
2462
3362
1462
5362
7962
6762
7963
0963
362
Spai
nA
dditi
onal
effic
ienc
y32
407
3087
530
795
3074
631
068
3118
031
222
3129
231
410
3150
231
609
3168
110
Fran
ceA
dditi
onal
effic
ienc
y45
080
4570
045
300
4500
044
700
4430
044
000
4370
043
400
4300
042
800
4210
013
Ital
yA
dditi
onal
effic
ienc
y39
000
3705
436
745
3643
736
129
3582
135
513
3520
534
897
3458
934
281
3397
211
Cyp
rus
Add
ition
alef
ficie
ncy
682
720
716
720
727
736
744
750
756
761
765
768
0L
atvi
aA
dditi
onal
effic
ienc
y98
210
9611
1611
3611
5711
7811
9912
1812
3712
5712
7812
990
Lith
uani
aA
dditi
onal
effic
ienc
y11
3313
3313
6814
0514
4414
8415
2715
6616
0616
4816
9117
341
Lux
embo
urg
Add
ition
alef
ficie
ncy
2416
2086
2111
2136
2161
2186
2211
2236
2260
2285
2309
2334
1H
unga
ryA
dditi
onal
effic
ienc
y39
6440
8343
6945
4446
8548
2549
2250
2051
2152
2352
8653
492
Mal
taA
dditi
onal
effic
ienc
yn.
a.15
215
415
515
615
815
916
016
116
316
416
50
Net
herl
ands
Add
ition
alef
ficie
ncy
1135
111
699
1164
311
587
1153
111
475
1141
911
262
1110
510
948
1079
110
634
3A
ustr
iaA
dditi
onal
effic
ienc
y89
4583
3683
4183
4883
5683
6483
7483
8583
9684
0784
1484
143
Pola
ndA
dditi
onal
effic
ienc
yn.
a.16
800
1700
017
200
1740
017
600
1780
018
200
1860
019
000
1950
019
900
6Po
rtug
alA
dditi
onal
effic
ienc
y62
2360
4060
2860
1660
0359
9259
8059
3258
8458
3657
8957
432
Rom
ania
Add
ition
alef
ficie
ncy
4139
4725
4873
4999
5125
5252
5379
5434
5485
5536
5592
5628
2Sl
oven
iaA
dditi
onal
effic
ienc
y15
2617
3517
5617
7717
9818
1918
3918
6218
8519
0719
3019
531
Slov
akia
Add
ition
alef
ficie
ncy
1744
2221
2245
2293
2341
2409
2449
2491
2532
2603
2675
2747
1Fi
nlan
dA
dditi
onal
effic
ienc
y42
2040
3040
6040
6040
8040
9041
0041
1041
5041
5041
2040
801
Swed
enA
dditi
onal
effic
ienc
y74
7376
8677
2877
7178
1378
5678
9879
4179
8380
2680
6881
113
Uni
ted
Kin
gdom
Add
ition
alef
ficie
ncy
4170
440
485
4093
541
427
4174
641
936
4200
242
030
4201
341
957
4187
841
779
13
All
Mem
berS
tate
s(t
otal
)A
dditi
onal
effic
ienc
y29
9104
3134
9131
3628
3141
9431
4801
3151
7031
5275
3148
0231
4307
3136
1331
3236
3123
5210
0
Fort
he‘a
dditi
onal
ener
gyef
ficie
ncy’
scen
ario
allM
embe
rSta
tes
have
prov
ided
data
.Fo
rMal
taan
dPo
land
noda
taar
eav
aila
ble
fort
heye
ar20
05.C
onse
quen
tly,t
heva
lue
repo
rted
here
asE
Uto
tali
n20
05is
actu
ally
the
valu
efo
rthe
EU
min
usM
alta
and
Pola
nd(i
nth
eye
ar20
10to
geth
eram
ount
ing
to17
.0M
toe)
.
ECN-E--10-069 39
Final consumption before aviation reduction (reference scenario) [ktoe] 28 NOV 2011
Table49:Totalfinalenergy
consumption
[ktoe]before
aviationreduction
forthe
referencescenario
ScenarioA
viationreduction
20052010
20112012
20132014
20152016
20172018
20192020
2020[ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][%
]
Belgium
Reference
Withoutreduction
3820941012
4122241426
4163841852
4205742119
4218943055
4232142386
3B
ulgariaR
eferenceW
ithoutreduction10314
1081110885
1118211542
1188012186
1241912663
1287813075
132631
Czech
Republic
Reference
Withoutreduction
2966530623
3092431193
3152331870
3226532589
3293733585
3379434128
3D
enmark
Reference
Withoutreduction
1647516495
1673817011
1716817324
1745317553
1764817740
1786117984
1G
ermany
Reference
Withoutreduction
229092223767
223249222485
221243220120
218926218019
216347214723
213122211599
16E
stoniaR
eferenceW
ithoutreduction3098
32103252
32943336
33773419
34403481
35223562
36020
IrelandR
eferenceW
ithoutreduction12807
1312712855
1302013285
1373214181
1446914707
1493915166
153671
Greece
Reference
Withoutreduction
2164922714
2242422516
2267022860
2315023539
2400724377
2482625262
2Spain
Reference
Withoutreduction
10184593379
9316994635
9661398743
100923103150
105417107739
110108112530
9France
Reference
Withoutreduction
166689179877
181423182970
184518186064
187610189157
190704192252
193798195745
15Italy
Reference
Withoutreduction
141226134643
135841137016
138167139295
140399141480
142536143570
144580145566
11C
yprusR
eferenceW
ithoutreduction1884
19211949
19912043
20962150
21992247
22932338
23800
Latvia
Reference
Withoutreduction
42414060
41414231
43254451
46154862
51015191
53005434
0L
ithuaniaR
eferenceW
ithoutreduction4907
50345134
52735412
55555698
57975895
60296162
62960
Luxem
bourgR
eferenceW
ithoutreduction4605
45584599
46394680
47204760
48124864
49164967
50190
Hungary
Reference
Withoutreduction
1990918309
1898619508
2016720205
2028820355
2041220462
2049320525
2M
altaR
eferenceW
ithoutreductionn.a.
517534
545555
566577
586596
606616
6250
Netherlands
Additionalefficiency
Withoutreduction
5401051008
5114651284
5142251560
5169851776
5185451932
5201052088
4A
ustriaR
eferenceW
ithoutreduction27610
2572626083
2648926948
2741627893
2840228922
2947730043
306222
PolandR
eferenceW
ithoutreductionn.a.
6130063400
6620067800
6990072000
7420076400
7840080700
827006
PortugalR
eferenceW
ithoutreduction19582
1859218690
1878218887
1898919094
1929319490
1968019879
200822
Rom
aniaR
eferenceW
ithoutreduction27519
2626126928
2776628705
2971630838
3143832122
3279733508
343743
SloveniaA
dditionalefficiencyW
ithoutreduction5090
49274979
50315083
51355186
52145241
52695296
53230
SlovakiaR
eferenceW
ithoutreduction10199
1065310891
1105811249
1141711562
1173111902
1209812270
124431
FinlandA
dditionalefficiencyW
ithoutreduction26260
2573026330
2661026860
2714027420
2760027770
2791028080
281702
Sweden
Reference
Withoutreduction
3451937826
3848739148
3981040471
4113241794
4245543117
4377844439
3U
nitedK
ingdomR
eferenceW
ithoutreduction154500
146600146800
147300147700
148100148300
148200148400
148600148800
14900011
AllM
emberStates
(total)M
ixedscenarios
Mixed
value1165904
12126801221059
12326031243349
12545541265780
12761931286307
12971571306453
1316952100
FortheN
etherlands,Sloveniaand
Finlandthe
‘Reference
scenario’isnotavailable.Forthese
Mem
berStates,projectionshave
beentaken
asreported
forthe‘A
dditionalefficiencyscenario’,see
Table50.
ForMalta
andPoland
nodata
areavailable
fortheyear2005.C
onsequently,thevalue
reportedhere
asE
Utotalin
2005is
actuallythe
valueforthe
EU
minus
Malta
andPoland
(inthe
year2010togetheram
ountingto
61.8M
toe).
40 ECN-E--10-069
28 NOV 2011 Final consumption before aviation reduction (additional energy efficiency) [ktoe]
Tabl
e50
:Tot
alfin
alen
ergy
cons
umpt
ion
[kto
e]be
fore
avia
tion
redu
ctio
nfo
rth
ead
ditio
nale
nerg
yef
ficie
ncy
scen
ario
Scen
ario
Avi
atio
nre
duct
ion
2005
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[%]
Bel
gium
Add
ition
alef
ficie
ncy
With
outr
educ
tion
3820
940
517
4063
040
736
4112
140
967
4107
641
116
4116
441
207
4125
441
301
3B
ulga
ria
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1031
410
398
1042
310
516
1057
810
608
1060
810
557
1062
610
688
1071
110
738
1C
zech
Rep
ublic
Add
ition
alef
ficie
ncy
With
outr
educ
tion
2966
529
969
3018
630
350
3056
830
796
3108
931
333
3158
732
018
3227
532
531
3D
enm
ark
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1647
516
324
1643
216
576
1660
016
629
1659
616
553
1651
016
458
1643
816
419
1G
erm
any
Add
ition
alef
ficie
ncy
With
outr
educ
tion
2290
9222
3584
2224
6122
0479
2182
3421
5869
2131
2221
0089
2069
8420
3760
2004
6319
7178
17E
ston
iaA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n30
9831
9032
1832
4632
7333
0133
2933
3833
6633
9534
2334
510
Irel
and
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1280
713
024
1263
312
700
1286
713
220
1357
513
784
1388
713
984
1407
614
142
1G
reec
eA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n21
649
2241
821
964
2186
421
917
2196
022
251
2259
622
903
2321
623
614
2411
42
Spai
nA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n10
1845
9322
692
503
9297
493
634
9411
694
593
9507
895
562
9605
596
544
9704
18
Fran
ceA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n16
6689
1643
4916
3400
1625
5316
1704
1607
5815
9909
1590
6015
8213
1572
6415
6517
1552
6813
Ital
yA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n14
1226
1318
0113
1925
1320
4913
2174
1322
9813
2422
1325
4613
2670
1327
9413
2918
1330
4211
Cyp
rus
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1884
1919
1934
1963
2002
2041
2080
2116
2149
2180
2210
2240
0L
atvi
aA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n42
4140
3341
0141
7042
4043
1143
8344
6245
4246
2447
0947
960
Lith
uani
aA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n49
0750
3151
1152
2953
4754
7956
1056
9257
7358
7759
8060
841
Lux
embo
urg
Add
ition
alef
ficie
ncy
With
outr
educ
tion
4605
4273
4296
4318
4341
4364
4386
4415
4444
4472
4501
4530
0H
unga
ryA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n19
909
1825
518
878
1941
819
849
1979
219
782
1974
619
728
1971
219
677
1964
42
Mal
taA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
nn.
a.50
652
253
254
255
156
157
057
858
759
560
30
Net
herl
ands
Add
ition
alef
ficie
ncy
With
outr
educ
tion
5401
051
008
5114
651
284
5142
251
560
5169
851
776
5185
451
932
5201
052
088
4A
ustr
iaA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n27
610
2572
625
775
2583
625
910
2600
126
113
2624
826
412
2660
826
839
2710
92
Pola
ndA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
nn.
a.61
300
6180
062
400
6290
063
400
6400
065
000
6610
067
100
6820
069
200
6Po
rtug
alA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n19
582
1859
218
690
1878
218
887
1898
919
094
1917
519
252
1931
819
392
1946
72
Rom
ania
Add
ition
alef
ficie
ncy
With
outr
educ
tion
2751
925
863
2643
926
956
2749
328
030
2860
628
932
2927
829
607
2994
930
278
3Sl
oven
iaA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n50
9049
2749
7950
3150
8351
3551
8652
1452
4152
6952
9653
230
Slov
akia
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1019
910
653
1072
410
755
1078
610
838
1086
210
888
1093
811
018
1110
011
226
1Fi
nlan
dA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n26
260
2573
026
330
2661
026
860
2714
027
420
2760
027
770
2791
028
080
2817
02
Swed
enA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n34
519
3608
936
404
3671
837
032
3734
637
660
3797
438
288
3860
338
917
3923
13
Uni
ted
Kin
gdom
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1545
0014
6500
1462
0014
6200
1461
0014
5900
1456
0014
5100
1448
0014
4600
1443
0014
4100
12
All
Mem
berS
tate
s(t
otal
)A
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n11
6590
411
8920
511
8910
411
9024
511
9146
411
9139
911
9161
111
9095
811
9061
911
9025
611
8998
811
8931
410
0
Thi
sda
tase
tpre
sent
sgr
oss
final
ener
gyco
nsum
ptio
n.It
isth
eon
lycr
oss-
sect
ion
ofth
eN
RE
AP
data
that
isco
mpl
ete,
soin
this
tabl
eno
corr
ectio
nsha
vebe
enap
plie
d(s
eeal
soth
efo
otno
tes
inTa
bles
49,5
1an
d52
).Fo
rMal
taan
dPo
land
noda
taar
eav
aila
ble
fort
heye
ar20
05.C
onse
quen
tly,t
heva
lue
repo
rted
here
asE
Uto
tali
n20
05is
actu
ally
the
valu
efo
rthe
EU
min
usM
alta
and
Pola
nd(i
nth
eye
ar20
10to
geth
eram
ount
ing
to61
.8M
toe)
.
ECN-E--10-069 41
Final consumption after aviation reduction (reference scenario) [ktoe] 28 NOV 2011
Table51:Totalfinalenergy
consumption
[ktoe]after
aviationreduction
forthe
referencescenario
ScenarioA
viationreduction
20052010
20112012
20132014
20152016
20172018
20192020
2020[ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][%
]
Belgium
Reference
Withoutreduction
3820941012
4122241426
4163841852
4205742119
4218943055
4232142386
3B
ulgariaR
eferenceW
ithoutreduction10314
1081110885
1118211542
1188012186
1241912663
1287813075
132631
Czech
Republic
Reference
Withoutreduction
2966530623
3092431193
3152331870
3226532589
3293733585
3379434128
3D
enmark
Reference
Afterreduction
1647516495
1673817011
1716817324
1745317553
1764817740
1786117984
1G
ermany
Reference
Withoutreduction
229092223767
223249222485
221243220120
218926218019
216347214723
213122211599
16E
stoniaR
eferenceW
ithoutreduction3098
32103252
32943336
33773419
34403481
35223562
36020
IrelandR
eferenceA
fterreduction12741
1310612855
1302013285
1373214181
1446914707
1493915166
153671
Greece
Reference
Withoutreduction
2164922714
2242422516
2267022860
2315023539
2400724377
2482625262
2Spain
Reference
Afterreduction
10184593379
9316994635
9661398743
100866102998
105147107343
109579111882
9France
Reference
Withoutreduction
166689179877
181423182970
184518186064
187610189157
190704192252
193798195745
15Italy
Reference
Withoutreduction
141226134643
135841137016
138167139295
140399141480
142536143570
144580145566
11C
yprusR
eferenceA
fterreduction1661
17441771
18101857
19041952
19962039
20812121
21590
Latvia
Reference
Withoutreduction
42414060
41414231
43254451
46154862
51015191
53005434
0L
ithuaniaR
eferenceW
ithoutreduction4907
50345134
52735412
55555698
57975895
60296162
62960
Luxem
bourgR
eferenceA
fterreduction4457
44264469
45124555
45984641
46964750
48054860
49150
Hungary
Reference
Withoutreduction
1990918309
1898619508
2016720205
2028820355
2041220462
2049320525
2M
altaR
eferenceW
ithoutreductionn.a.
517534
545555
566577
586596
606616
6250
Netherlands
Additionalefficiency
Afterreduction
5371750240
5030350366
5042850491
5055450550
5054550541
5053650532
4A
ustriaR
eferenceW
ithoutreduction27610
2572626083
2648926948
2741627893
2840228922
2947730043
306222
PolandR
eferenceW
ithoutreductionn.a.
6130063400
6620067800
6990072000
7420076400
7840080700
827006
PortugalR
eferenceW
ithoutreduction19582
1859218690
1878218887
1898919094
1929319490
1968019879
200822
Rom
aniaR
eferenceW
ithoutreduction27519
2626126928
2776628705
2971630838
3143832122
3279733508
343743
SloveniaA
dditionalefficiencyW
ithoutreduction5090
49274979
50315083
51355186
52145241
52695296
53230
SlovakiaR
eferenceW
ithoutreduction10199
1065310891
1105811249
1141711562
1173111902
1209812270
124431
FinlandA
dditionalefficiencyW
ithoutreduction26260
2573026330
2661026860
2714027420
2760027770
2791028080
281702
Sweden
Reference
Withoutreduction
3451937826
3848739148
3981040471
4113241794
4245543117
4377844439
3U
nitedK
ingdomR
eferenceA
fterreduction150900
142800142700
143000143100
143200143000
142500142300
142200142100
14200011
AllM
emberStates
(total)M
ixedscenarios
Mixed
value1161574
12077821215808
12270771237444
12482711258962
12687961278306
12886471297426
1307423100
Notfor
allMem
berStates
theaviation
reductionhas
beenapplied.
This
tablepresents
alldatafor
thetotalconsum
ptionafter
reductionfor
aviationlim
itforD
enmark,Ireland,Spain
(onlyfor
2015–
2020),Cyprus,L
uxembourg,the
Netherlands,and
theU
nitedK
ingdom.
Fortherem
ainingcountries,the
valuesbefore
theaviation
reductionhave
beendisplayed.
This
regardsB
elgium,
Bulgaria,the
Czech
Republic,G
ermany,E
stonia,Greece,France,Italy,L
atvia,Lithuania,H
ungary,Malta,A
ustria,Poland,Portugal,Rom
ania,Slovenia,Slovakia,Finland,Sweden,.See
alsothe
thirdcolum
nin
thetable.
FortheN
etherlands,Sloveniaand
Finlandthe
‘Reference
scenario’isnotavailable.Forthese
Mem
berStates,projectionshave
beentaken
asreported
forthe‘A
dditionalefficiencyscenario’,see
Tables50
(Sloveniaand
Finland)and52
(theN
etherlands).ForM
altaand
Polandno
dataare
availableforthe
year2005.Consequently,the
valuereported
hereas
EU
totalin2005
isactually
thevalue
fortheE
Um
inusM
altaand
Poland(in
theyear2010
togetheramounting
to61.8
Mtoe).
ForSpainthe
aviationreduction
onlyapplies
tothe
years2015
–2020
inthe
‘Reference
scenario’.
42 ECN-E--10-069
28 NOV 2011 Final consumption after aviation reduction (additional energy efficiency) [ktoe]
Tabl
e52
:Tot
alfin
alen
ergy
cons
umpt
ion
[kto
e]af
ter
avia
tion
redu
ctio
nfo
rth
ead
ditio
nale
nerg
yef
ficie
ncy
Scen
ario
Avi
atio
nre
duct
ion
2005
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[%]
Bel
gium
Add
ition
alef
ficie
ncy
With
outr
educ
tion
3820
940
517
4063
040
736
4112
140
967
4107
641
116
4116
441
207
4125
441
301
4B
ulga
ria
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1031
410
398
1042
310
516
1057
810
608
1060
810
557
1062
610
688
1071
110
738
1C
zech
Rep
ublic
Add
ition
alef
ficie
ncy
With
outr
educ
tion
2966
529
969
3018
630
350
3056
830
796
3108
931
333
3158
732
018
3227
532
531
3D
enm
ark
Add
ition
alef
ficie
ncy
Aft
erre
duct
ion
1647
516
324
1643
216
576
1660
016
629
1659
616
553
1651
016
443
1639
516
346
1G
erm
any
Add
ition
alef
ficie
ncy
With
outr
educ
tion
2290
9222
3584
2224
6122
0479
2182
3421
5869
2131
2221
0089
2069
8420
3760
2004
6319
7178
17E
ston
iaA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n30
9831
9032
1832
4632
7333
0133
2933
3833
6633
9534
2334
510
Irel
and
Add
ition
alef
ficie
ncy
Aft
erre
duct
ion
1274
112
996
1263
312
700
1286
713
220
1357
513
784
1388
713
984
1407
614
142
1G
reec
eA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n21
649
2241
821
964
2186
421
917
2196
022
251
2259
622
903
2321
623
614
2411
42
Spai
nA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n10
1845
9322
692
503
9297
493
634
9411
694
593
9507
895
562
9605
596
544
9704
18
Fran
ceA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n16
6689
1643
4916
3400
1625
5316
1704
1607
5815
9909
1590
6015
8213
1572
6415
6517
1552
6813
Ital
yA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n14
1226
1318
0113
1925
1320
4913
2174
1322
9813
2422
1325
4613
2670
1327
9413
2918
1330
4211
Cyp
rus
Add
ition
alef
ficie
ncy
Aft
erre
duct
ion
1661
1742
1757
1782
1816
1850
1884
1915
1943
1971
1997
2023
0L
atvi
aA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n42
4140
3341
0141
7042
4043
1143
8344
6245
4246
2447
0947
960
Lith
uani
aA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n49
0750
3151
1152
2953
4754
7956
1056
9257
7358
7759
8060
841
Lux
embo
urg
Add
ition
alef
ficie
ncy
Aft
erre
duct
ion
4457
4123
4147
4171
4195
4219
4243
4274
4304
4335
4365
4396
0H
unga
ryA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n19
909
1825
518
878
1941
819
849
1979
219
782
1974
619
728
1971
219
677
1964
42
Mal
taA
dditi
onal
effic
ienc
yA
fter
redu
ctio
nn.
a.43
445
046
047
048
049
049
950
751
752
653
40
Net
herl
ands
Add
ition
alef
ficie
ncy
Aft
erre
duct
ion
5371
750
240
5030
350
366
5042
850
491
5055
450
550
5054
550
541
5053
650
532
4A
ustr
iaA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n27
610
2572
625
775
2583
625
910
2600
126
113
2624
826
412
2660
826
839
2710
92
Pola
ndA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
nn.
a.61
300
6180
062
400
6290
063
400
6400
065
000
6610
067
100
6820
069
200
6Po
rtug
alA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n19
582
1859
218
690
1878
218
887
1898
919
094
1917
519
252
1931
819
392
1946
72
Rom
ania
Add
ition
alef
ficie
ncy
With
outr
educ
tion
2751
925
863
2643
926
956
2749
328
030
2860
628
932
2927
829
607
2994
930
278
3Sl
oven
iaA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n50
9049
2749
7950
3150
8351
3551
8652
1452
4152
6952
9653
230
Slov
akia
Add
ition
alef
ficie
ncy
With
outr
educ
tion
1019
910
653
1072
410
755
1078
610
838
1086
210
888
1093
811
018
1110
011
226
1Fi
nlan
dA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n26
260
2573
026
330
2661
026
860
2714
027
420
2760
027
770
2791
028
080
2817
02
Swed
enA
dditi
onal
effic
ienc
yW
ithou
tred
uctio
n34
519
3608
936
404
3671
837
032
3734
637
660
3797
438
288
3860
338
917
3923
13
Uni
ted
Kin
gdom
Add
ition
alef
ficie
ncy
Aft
erre
duct
ion
1509
0014
2700
1421
0014
1800
1414
0014
0800
1402
0013
9200
1385
0013
7900
1373
0013
6700
12
All
Mem
berS
tate
s(t
otal
)A
dditi
onal
effic
ienc
yM
ixed
valu
e11
6157
411
8421
011
8376
311
8452
711
8536
611
8482
311
8465
711
8341
911
8259
311
8173
411
8105
311
7986
510
0
For
Cyp
rus
and
Mal
tath
eva
lue
for
‘tot
alfin
alen
ergy
cons
umpt
ion
afte
rav
iatio
nre
duct
ion’
mig
htbe
anun
dere
stim
ate,
see
Sect
ions
1.5.
12an
d1.
5.17
inth
em
ain
repo
rtav
aila
ble
from
ww
w.e
cn.n
l/nre
apN
otfo
rall
Mem
berS
tate
sthe
avia
tion
redu
ctio
nha
sbee
nap
plie
d.T
hist
able
pres
ents
alld
ata
fort
heto
talc
onsu
mpt
ion
afte
rred
uctio
nfo
ravi
atio
nlim
itfo
rDen
mar
k,Ir
elan
d,C
ypru
s,L
uxem
bour
g,M
alta
,the
Net
herl
ands
and
the
Uni
ted
Kin
gdom
.Fo
rthe
rem
aini
ngco
untr
ies,
the
valu
esbe
fore
the
avia
tion
redu
ctio
nha
vebe
endi
spla
yed.
Thi
sre
gard
sB
elgi
um,B
ulga
ria,
the
Cze
chR
epub
lic,
Ger
man
y,E
ston
ia,G
reec
e,Sp
ain,
Fran
ce,I
taly
,Lat
via,
Lith
uani
a,H
unga
ry,A
ustr
ia,P
olan
d,Po
rtug
al,R
oman
ia,S
love
nia,
Slov
akia
,Fin
land
and
Swed
en.S
eeal
soth
eth
ird
colu
mn
inth
eta
ble.
ForM
alta
and
Pola
ndno
data
are
avai
labl
efo
rthe
year
2005
.Con
sequ
ently
,the
valu
ere
port
edhe
reas
EU
tota
lin
2005
isac
tual
lyth
eva
lue
fort
heE
Um
inus
Mal
taan
dPo
land
(in
the
year
2010
toge
ther
amou
ntin
gto
61.7
Mto
e).
ECN-E--10-069 43
Renewable aggregate data as reported in NREAP
ECN-E--10-069 45
Renewable aggregate data as reported in NREAP 28 NOV 2011
Table53:A
ggregateR
ES
accordingto
NR
EA
Pfor
theyear
2005(Tem
plateTable
4a,Table4b
(RE
S-Tfor
target)andTable
12(R
ES-E
inroad
vehicles)R
ES-E
aR
ES-H
/Ca
RE
S-Ta
AllR
ESa
AllR
ESb
RE
S-Ttarget c
RE
S-E,H
/C,T
dD
ifferencee
RE
S-Ef
inR
ES
export aR
ES
import a
RE
Sa
afterPage
[ktoe][ktoe]
[ktoe][ktoe]
[%]
[ktoe][ktoe]
[ktoe]transport[ktoe]
[ktoe][ktoe]
exchange[ktoe]
Belgium
212491
16702
0.716
719-17
160
0702
88B
ulgaria264
7243
9911.0
0991
03
00
99189
Czech
Republic
2691482
91760
1.89
17600
60
01760
90D
enmark
8501869
92718
2.89
2728-10
90
02718
91G
ermany
53017706
208714926
15.12087
15094-168
1690
014926
92E
stonia9
5050
5150.5
n.a.514
10
n.a.0
51593
Ireland180
1931
3730.4
1374
-11
00
37394
Greece
4401066
11507
1.51
15070
n.a.n.a.
n.a.1507
95Spain
46243550
3668433
8.5366
8540-107
108n.a.
n.a.8433
96France
61189397
54415918
16.1544
16059-141
1410
015918
97Italy
48471916
1796942
7.0338
69420
139n.a.
n.a.6942
98C
yprus0
480
480.0
048
00
00
4899
Latvia
2611114
71377
1.49
1382-5
4n.a.
n.a.1377
100L
ithuania38
6884
7300.7
4730
00
00
730101
Luxem
bourg18
202
400.0
240
01
n.a.n.a.
40102
Hungary
n.a.n.a.
n.a.n.a.
n.a.5
n.a.n.a.
0n.a.
n.a.n.a.
103M
altan.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.104
Netherlands
622717
81339
1.48
1347-8
80
01339
105A
ustria3480
3213205
67356.8
2146898
-163162
00
6735106
Polandn.a.
n.a.n.a.
n.a.n.a.
43n.a.
n.a.0
n.a.n.a.
n.a.107
Portugal1337
252912
38663.9
123878
-1212
00
3866108
Rom
ania1347
351658
49215.0
584921
041
00
4921109
Slovenia362
4650
8280.8
4827
14
00
828110
Slovakia404
3618
7720.8
8773
-18
n.a.n.a.
772111
Finland2030
55300
75607.7
207560
020
00
7560112
Sweden
66057084
28813689
13.9301
13977-288
121n.a.
n.a.13689
113U
nitedK
ingdom1506
47569
20502.1
692050
0113
n.a.n.a.
2050114
European
Union
4112454659
387698740
100.04128
99659-919
10860
098740
-
aA
sreported
inTem
plateTable
4a.The
Template
isavailable
fromhttp://eur-lex.europa.eu/L
exUriServ/L
exUriServ.do?uri=C
EL
EX
:32009D0548:E
N:N
OT
.b
Calculated
indicator:contributionofeach
Mem
berStateto
‘AllR
ES’as
reportedin
Table4a.
c‘R
ES-T
target’refersto
therow
indicated(J)in
Template
Table4b
andtakes
intoaccountA
rticle4c
oftheD
irective(applying
afactor2.5
toelectricity
fromrenew
ableenergy
sourcesconsum
edby
electricroad
vehicles)andA
rticle21.2
(consideringtw
icethe
contributionm
adeby
biofuelsproduced
fromw
astes,residues,non-foodcellulosic
materialand
ligno-cellulosicm
aterial).d
Calculated
result:sumofcolum
ns‘R
ES-E
’,‘RE
S-H/C
’and‘R
ES-T’as
reportedin
Template
Table4a.
eD
ifferencebetw
eencolum
n‘A
llRE
S’and
thesum
ofcolum
ns‘R
ES-E
’,‘RE
S-H/C
’and
‘RE
S-T’as
reportedin
Template
Table4a
(seealso
footnoted).
Sincenone
ofthe
27M
ember
Statesprojected
acontribution
fromrenew
ablehydrogen
intransport,the
differenceshould
beequalto
theprojection
forrenewable
electricityin
transport(Article
5.1ofthe
Renew
ableE
nergyD
irective2009/28/E
C,http://eur-lex.europa.eu/L
exUriServ/L
exUriServ.do?uri=C
EL
EX
:32009L0028:E
N:N
OT
).f
Renew
ableelectricity
intransport(‘road
transport’and‘non-road
transport’)asreported
inTem
plateTable
12(forR
omania
only‘renew
ableelectricity
inroad
transport’fromTem
plateTable
4bhas
beenconsidered).
46 ECN-E--10-069
28 NOV 2011 Renewable aggregate data as reported in NREAP
Tabl
e54
:Agg
rega
teR
ES
acco
rdin
gto
NR
EA
Pfo
rth
eye
ar20
10(T
empl
ate
Tabl
e4a
,Tab
le4b
(RE
S-T
for
targ
et)a
ndTa
ble
12(R
ES-
Ein
road
vehi
cles
)R
ES-
Ea
RE
S-H
/Ca
RE
S-Ta
All
RE
SaA
llR
ESb
RE
S-T
targ
etc
RE
S-E
,H/C
,Td
Diff
eren
cee
RE
S-Ef
inR
ES
expo
rta
RE
Sim
porta
RE
Saaf
ter
Page
[kto
e][k
toe]
[kto
e][k
toe]
[%]
[kto
e][k
toe]
[kto
e]tr
ansp
ort[
ktoe
][k
toe]
[kto
e]ex
chan
ge[k
toe]
Bel
gium
401
766
353
1520
1.1
353
1520
024
00
1520
88B
ulga
ria
330
741
3611
070.
830
1107
03
610
1046
89C
zech
Rep
ublic
445
1811
250
2506
1.8
250
2506
07
00
2506
90D
enm
ark
1067
2480
4235
782.
642
3589
-11
110
035
7891
Ger
man
y90
2610
031
3749
2258
816
.538
4722
806
-218
219
00
2258
892
Est
onia
5361
21
666
0.5
n.a.
666
00
n.a.
066
693
Irel
and
504
220
135
859
0.6
138
859
01
00
859
94G
reec
e67
412
6911
020
501.
511
120
53-3
225
7n.
a.17
9395
Spai
n72
2737
6418
0212
693
9.3
1852
1279
3-1
0099
n.a.
n.a.
1269
396
Fran
ce70
7311
124
2898
2091
215
.329
4821
095
-183
183
00
2091
297
Ital
y57
4438
5110
2010
615
7.7
1295
1061
50
170
n.a.
n.a.
1061
598
Cyp
rus
2078
1611
40.
116
.15
114
00
00
114
99L
atvi
a26
110
2042
1320
1.0
4413
23-3
3n.
a.n.
a.13
2010
0L
ithua
nia
7466
655
795
0.6
5579
50
00
079
510
1L
uxem
bour
g22
2643
890.
143
91-2
20
089
102
Hun
gary
244
949
150
1344
1.0
177
1343
16
00
1344
103
Mal
ta1.
33.
53
7.8
0.0
4.2
7.8
00
n.a.
n.a.
7.8
104
Net
herl
ands
915
906
319
2128
1.6
475
2140
-12
120
021
2810
5A
ustr
ia39
0236
5756
479
525.
856
481
23-1
7117
10
079
5210
6Po
land
913
3980
981
5873
4.3
971
5874
-115
00
5873
107
Port
ugal
1956
2240
301
4476
3.3
305
4497
-21
200
044
7610
8R
oman
ia14
3528
1927
545
293.
327
545
290
360
045
2910
9Sl
oven
ia38
844
540
874
0.6
4687
31
50
087
411
0Sl
ovak
ia47
145
290
1013
0.7
9010
130
8n.
a.0
1013
111
Finl
and
1950
5210
220
7380
5.4
230
7380
020
00
7380
112
Swed
en71
8982
3752
815
695
11.5
573
1595
4-2
5914
7n.
a.n.
a.15
695
113
Uni
ted
Kin
gdom
2720
518
1066
4304
3.1
1066
4304
013
6n.
a.n.
a.43
0411
4
Eur
opea
nU
nion
5500
5.3
6787
5.5
1508
913
6987
.810
0.0
1580
0.35
1379
69.8
-982
1301
318
013
6669
.8-
aA
sre
port
edin
Tem
plat
eTa
ble
4a.T
heTe
mpl
ate
isav
aila
ble
from
http
://eu
r-le
x.eu
ropa
.eu/
Lex
Uri
Serv
/Lex
Uri
Serv
.do?
uri=
CE
LE
X:3
2009
D05
48:E
N:N
OT
.b
Cal
cula
ted
indi
cato
r:co
ntri
butio
nof
each
Mem
berS
tate
to‘A
llR
ES’
asre
port
edin
Tabl
e4a
.c
‘RE
S-T
targ
et’r
efer
sto
the
row
indi
cate
d(J
)in
Tem
plat
eTa
ble
4ban
dta
kes
into
acco
untA
rtic
le4c
ofth
eD
irec
tive
(app
lyin
ga
fact
or2.
5to
elec
tric
ityfr
omre
new
able
ener
gyso
urce
sco
nsum
edby
elec
tric
road
vehi
cles
)and
Art
icle
21.2
(con
side
ring
twic
eth
eco
ntri
butio
nm
ade
bybi
ofue
lspr
oduc
edfr
omw
aste
s,re
sidu
es,n
on-f
ood
cellu
losi
cm
ater
iala
ndlig
no-c
ellu
losi
cm
ater
ial)
.d
Cal
cula
ted
resu
lt:su
mof
colu
mns
‘RE
S-E
’,‘R
ES-
H/C
’and
‘RE
S-T’
asre
port
edin
Tem
plat
eTa
ble
4a.
eD
iffer
ence
betw
een
colu
mn
‘All
RE
S’an
dth
esu
mof
colu
mns
‘RE
S-E
’,‘R
ES-
H/C
’an
d‘R
ES-
T’as
repo
rted
inTe
mpl
ate
Tabl
e4a
(see
also
foot
note
d).
Sinc
eno
neof
the
27M
embe
rSt
ates
proj
ecte
da
cont
ribu
tion
from
rene
wab
lehy
drog
enin
tran
spor
t,th
edi
ffer
ence
shou
ldbe
equa
lto
the
proj
ectio
nfo
rren
ewab
leel
ectr
icity
intr
ansp
ort(
Art
icle
5.1
ofth
eR
enew
able
Ene
rgy
Dir
ectiv
e20
09/2
8/E
C,h
ttp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09L
0028
:EN
:NO
T).
fR
enew
able
elec
tric
ityin
tran
spor
t(‘r
oad
tran
spor
t’an
d‘n
on-r
oad
tran
spor
t’)a
sre
port
edin
Tem
plat
eTa
ble
12(f
orR
oman
iaon
ly‘r
enew
able
elec
tric
ityin
road
tran
spor
t’fr
omTe
mpl
ate
Tabl
e4b
has
been
cons
ider
ed).
ECN-E--10-069 47
Renewable aggregate data as reported in NREAP 28 NOV 2011
Table55:A
ggregateR
ES
accordingto
NR
EA
Pfor
theyear
2015(Tem
plateTable
4a,Table4b
(RE
S-Tfor
target)andTable
12(R
ES-E
inroad
vehicles)R
ES-E
aR
ES-H
/Ca
RE
S-Ta
AllR
ESa
AllR
ESb
RE
S-Ttarget c
RE
S-E,H
/C,T
dD
ifferencee
RE
S-Ef
inR
ES
export aR
ES
import a
RE
Sa
afterPage
[ktoe][ktoe]
[ktoe][ktoe]
[%]
[ktoe][ktoe]
[ktoe]transport[ktoe]
[ktoe][ktoe]
exchange[ktoe]
Belgium
11211435
5413096
1.7544
3097-1
470
03096
88B
ulgaria590
943166
16990.9
1151699
07
3860
131389
Czech
Republic
8642359
4553677
2.0455
3678-1
160
03677
90D
enmark
14772855
2664579
2.5292
4598-19
19833
03746
91G
ermany
1355312163
347928822
15.93613
29195-373
3740
028822
92E
stonia117
62642
7860.4
n.a.785
10
810
70493
Ireland855
451300
16050.9
3041606
-11
2110
139494
Greece
14591548
3933393
1.9395
3400-7
7856
n.a.2537
95Spain
95454404
269516419
9.12902
16644-225
224n.a.
n.a.16419
96France
940715040
321527402
15.13372
27662-260
2600
027402
97Italy
70456062
177514882
8.22356
148820
265n.a.
n.a.14882
98C
yprus46
10123
1700.1
24.55170
00
00
17099
Latvia
3321179
531560
0.956
1564-4
5n.a.
n.a.1560
100L
ithuania182
849111
11420.6
1131142
02
00
1142101
Luxem
bourg49
5784
1860.1
85190
-44
045
231102
Hungary
3331049
2661648
0.9310
16480
150
01648
103M
alta17.1
4.95.1
27.10.0
6.727.1
00
n.a.n.a.
27.1104
Netherlands
23601380
5914307
2.4685
4331-24
230
04307
105A
ustria4144
3808631
83924.6
6568583
-191191
00
8392106
Poland1709
45321376
76174.2
14447617
023
00
7617107
Portugal2531
2462466
54213.0
4795459
-3837
00
5421108
Rom
ania2333
3000436
57693.2
4365769
045
00
5769109
Slovenia458
56179
10990.6
861098
17
00
1099110
Slovakia617
627147
13910.8
1471391
010
3050
1086111
Finland2200
6340410
89504.9
5108950
020
00
8950112
Sweden
77729390
76817702
9.8844
17930-228
173n.a.
n.a.17702
113U
nitedK
ingdom5189
15372581
93075.1
25879307
0192
n.a.n.a.
9307114
European
Union
76305.184762.9
21354.1181048.1
100.022817.25
182422.1-1374
19682672
45178420.1
-
aA
sreported
inTem
plateTable
4a.The
Template
isavailable
fromhttp://eur-lex.europa.eu/L
exUriServ/L
exUriServ.do?uri=C
EL
EX
:32009D0548:E
N:N
OT
.b
Calculated
indicator:contributionofeach
Mem
berStateto
‘AllR
ES’as
reportedin
Table4a.
c‘R
ES-T
target’refersto
therow
indicated(J)in
Template
Table4b
andtakes
intoaccountA
rticle4c
oftheD
irective(applying
afactor2.5
toelectricity
fromrenew
ableenergy
sourcesconsum
edby
electricroad
vehicles)andA
rticle21.2
(consideringtw
icethe
contributionm
adeby
biofuelsproduced
fromw
astes,residues,non-foodcellulosic
materialand
ligno-cellulosicm
aterial).d
Calculated
result:sumofcolum
ns‘R
ES-E
’,‘RE
S-H/C
’and‘R
ES-T’as
reportedin
Template
Table4a.
eD
ifferencebetw
eencolum
n‘A
llRE
S’and
thesum
ofcolum
ns‘R
ES-E
’,‘RE
S-H/C
’and
‘RE
S-T’as
reportedin
Template
Table4a
(seealso
footnoted).
Sincenone
ofthe
27M
ember
Statesprojected
acontribution
fromrenew
ablehydrogen
intransport,the
differenceshould
beequalto
theprojection
forrenewable
electricityin
transport(Article
5.1ofthe
Renew
ableE
nergyD
irective2009/28/E
C,http://eur-lex.europa.eu/L
exUriServ/L
exUriServ.do?uri=C
EL
EX
:32009L0028:E
N:N
OT
).f
Renew
ableelectricity
intransport(‘road
transport’and‘non-road
transport’)asreported
inTem
plateTable
12(forR
omania
only‘renew
ableelectricity
inroad
transport’fromTem
plateTable
4bhas
beenconsidered).
48 ECN-E--10-069
28 NOV 2011 Renewable aggregate data as reported in NREAP
Tabl
e56
:Agg
rega
teR
ES
acco
rdin
gto
NR
EA
Pfo
rth
eye
ar20
20(T
empl
ate
Tabl
e4a
,Tab
le4b
(RE
S-T
for
targ
et)a
ndTa
ble
12(R
ES-
Ein
road
vehi
cles
)R
ES-
Ea
RE
S-H
/Ca
RE
S-Ta
All
RE
SaA
llR
ESb
RE
S-T
targ
etc
RE
S-E
,H/C
,Td
Diff
eren
cee
RE
S-Ef
inR
ES
expo
rta
RE
Sim
porta
RE
Saaf
ter
Page
[kto
e][k
toe]
[kto
e][k
toe]
[%]
[kto
e][k
toe]
[kto
e]tr
ansp
ort[
ktoe
][k
toe]
[kto
e]ex
chan
ge[k
toe]
Bel
gium
1988
2588
798
5374
2.2
886
5374
097
00
5374
88B
ulga
ria
654
1103
302
2059
0.8
204
2059
015
341
017
1889
Cze
chR
epub
lic10
3826
7269
143
831.
869
144
01-1
819
00
4383
90D
enm
ark
1685
3042
291
4989
2.0
439
5018
-29
2963
049
2691
Ger
man
y18
653
1443
161
4038
557
15.8
6390
3922
4-6
6766
70
038
557
92E
ston
ia16
560
792
863
0.4
n.a.
864
-11
00
863
93Ir
elan
d11
9659
148
222
690.
957
522
690
370
022
6994
Gre
ece
2345
1908
634
4870
2.0
641
4887
-17
16.5
529
n.a.
4341
95Sp
ain
1290
356
5438
8522
057
9.0
4322
2244
2-3
8538
1n.
a.n.
a.22
057
96Fr
ance
1272
919
732
4062
3612
114
.844
2736
523
-402
402
00
3612
197
Ital
y85
0410
456
2530
2149
08.
834
4521
490
036
9n.
a.11
2722
617
98C
ypru
s10
112
438
263
0.1
77.1
226
30
0.56
00
263
99L
atvi
a44
613
9583
1918
0.8
130
1924
-66
n.a.
n.a.
1918
100
Lith
uani
a25
410
5116
914
740.
617
314
740
2.5
00
1474
101
Lux
embo
urg
6710
822
639
10.
223
440
1-1
010
093
484
102
Hun
gary
481
1863
535
2879
1.2
598
2879
024
00
2879
103
Mal
ta37
.24.
512
.854
.50.
017
.754
.50
0.7
n.a.
n.a.
54.5
104
Net
herl
ands
4326
2179
905
7340
3.0
1097
7410
-70
710
073
4010
5A
ustr
ia45
0341
7985
692
663.
897
695
38-2
7227
20
092
6610
6Po
land
2786
5921
2018
1072
54.
421
9410
725
050
00
1072
510
7Po
rtug
al30
6025
0753
560
442.
557
461
02-5
858
00
6044
108
Rom
ania
2666
4038
564
7268
3.0
564
7268
052
.70
072
6810
9Sl
oven
ia52
762
519
213
440.
520
413
440
110
013
4411
0Sl
ovak
ia68
882
020
717
150.
727
517
150
1714
30
1572
111
Finl
and
2870
7270
560
1070
04.
480
010
700
040
00
1070
011
2Sw
eden
8356
1054
310
0819
709
8.1
1116
1990
7-1
9819
8n.
a.n.
a.19
709
113
Uni
ted
Kin
gdom
1005
961
9942
5120
510
8.4
4295
2050
91
267
n.a.
n.a.
2051
011
4
Eur
opea
nU
nion
1030
87.2
1116
10.5
3206
6.8
2446
32.5
100.
035
344.
8224
6764
.5-2
132
3114
1076
1220
2447
76.5
-
aA
sre
port
edin
Tem
plat
eTa
ble
4a.T
heTe
mpl
ate
isav
aila
ble
from
http
://eu
r-le
x.eu
ropa
.eu/
Lex
Uri
Serv
/Lex
Uri
Serv
.do?
uri=
CE
LE
X:3
2009
D05
48:E
N:N
OT
.b
Cal
cula
ted
indi
cato
r:co
ntri
butio
nof
each
Mem
berS
tate
to‘A
llR
ES’
asre
port
edin
Tabl
e4a
.c
‘RE
S-T
targ
et’r
efer
sto
the
row
indi
cate
d(J
)in
Tem
plat
eTa
ble
4ban
dta
kes
into
acco
untA
rtic
le4c
ofth
eD
irec
tive
(app
lyin
ga
fact
or2.
5to
elec
tric
ityfr
omre
new
able
ener
gyso
urce
sco
nsum
edby
elec
tric
road
vehi
cles
)and
Art
icle
21.2
(con
side
ring
twic
eth
eco
ntri
butio
nm
ade
bybi
ofue
lspr
oduc
edfr
omw
aste
s,re
sidu
es,n
on-f
ood
cellu
losi
cm
ater
iala
ndlig
no-c
ellu
losi
cm
ater
ial)
.d
Cal
cula
ted
resu
lt:su
mof
colu
mns
‘RE
S-E
’,‘R
ES-
H/C
’and
‘RE
S-T’
asre
port
edin
Tem
plat
eTa
ble
4a.
eD
iffer
ence
betw
een
colu
mn
‘All
RE
S’an
dth
esu
mof
colu
mns
‘RE
S-E
’,‘R
ES-
H/C
’an
d‘R
ES-
T’as
repo
rted
inTe
mpl
ate
Tabl
e4a
(see
also
foot
note
d).
Sinc
eno
neof
the
27M
embe
rSt
ates
proj
ecte
da
cont
ribu
tion
from
rene
wab
lehy
drog
enin
tran
spor
t,th
edi
ffer
ence
shou
ldbe
equa
lto
the
proj
ectio
nfo
rren
ewab
leel
ectr
icity
intr
ansp
ort(
Art
icle
5.1
ofth
eR
enew
able
Ene
rgy
Dir
ectiv
e20
09/2
8/E
C,h
ttp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09L
0028
:EN
:NO
T).
fR
enew
able
elec
tric
ityin
tran
spor
t(‘r
oad
tran
spor
t’an
d‘n
on-r
oad
tran
spor
t’)a
sre
port
edin
Tem
plat
eTa
ble
12(f
orR
oman
iaon
ly‘r
enew
able
elec
tric
ityin
road
tran
spor
t’fr
omTe
mpl
ate
Tabl
e4b
has
been
cons
ider
ed).
ECN-E--10-069 49
Biomass supply
ECN-E--10-069 51
Biomass supply from forestry (total) [various units] 28 NOV 2011
Table57:B
iomass
supplyfrom
forestry(total)for
theyears
2006(including
importand
export),2015and
2020.A
mountofdom
esticresource
Imported
(EU
)Im
ported(non-E
U)
Exported
(EU
/non-EU
)N
etamount
Primary
energyproduction
20062015
20202006
20062006
20062006
2015
Belgium
1166.68kt
1892.78kt
2227.631kt
904.58kt
49.48kt
0kt
2120.31kt
818.07ktoe
732.03ktoe
868.59ktoe
Bulgaria
2527513t
2725kt
2951kt
0t
0t
99888t
2427625t
759ktoe
860ktoe
930ktoe
Czech
Republic
5867m3
9257m3
9901m3
55m3
0m3
517m3
5406m3
1536ktoe
2529ktoe
2716ktoe
Denm
ark3489000
ton8265000
ton8642000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton5326000
ton922
ktoe1006
ktoeG
ermany
45313000m3
58832500m3
57621000m3
1840000m3
n.a.m3
n.a.m3
47153000m3
9792ktoe
12217.5ktoe
11966ktoe
Estonia
3615000m3
n.a.m3
n.a.m3
1000m3
2000m3
85000m3
n.a.m3
n.a.ktoe
n.a.ktoe
n.a.ktoe
Ireland1303374
m3
1093000m3
1667m3
2182m3
1089m3
0m3
1305556m3
n.a.ktoe
169.81ktoe
258ktoe
Greece
3225559m3
933333m3
933333m3
0m3
0m3
0m3
3225559m3
729ktoe
164ktoe
164ktoe
Spain10018750
ton11923266
ton13997093
tonn.a.
tonn.a.
tonn.a.
ton10018750
ton2800
ktoe3261
ktoe3783
ktoeFrance
59778254m3
71100000m3
79370000m3
1656455m3
174342m3
2503601m3
59105450m3
11029ktoe
13455ktoe
15229ktoe
Italyn.a.
m3
4000000m3
10000000m3
n.a.m3
n.a.m3
n.a.m3
n.a.m3
n.a.ktoe
1600ktoe
4000ktoe
Cyprus
16347ton
n.a.ton
n.a.ton
8608ton
n.a.ton
n.a.ton
24928ton
9ktoe
5.05ktoe
5.05ktoe
Latvia
2058m3
n.a.m3
n.a.m3
116.4m3
n.a.m3
3325.4m3
5499.8m3
3849.86ktoe
n.a.ktoe
n.a.ktoe
Lithuania
3824m3
3490000m3
3122000m3
228m3
96m3
430/4m3
3714m3
728ktoe
684ktoe
612ktoe
Luxem
bourg274500
m3
59000m3
85000m3
n.a.m3
n.a.m3
151800m3
132000m3
22.6ktoe
49ktoe
107ktoe
Hungary
3328000m3
3500000m3
3800000m3
100000m3
100000m3
100000m3
3428000m3
24.73PJ/year
25.29PJ/year
27.46PJ/year
Malta
0m3
n.a.m3
n.a.m3
0m3
0m3
0m3
n.a.m3
0ktoe
n.a.ktoe
n.a.ktoe
Netherlands
2910ktns
1683a
ktns2605
bktns
690ktns
235ktns
1463ktns
2088ktns
462ktoe
376c
ktoe558
dktoe
Austria
16400000ktoe
19500000ktoe
21000000ktoe
4170000ktoe
n.a.ktoe
50000ktoe
20520000ktoe
3725ktoe
3588ktoe
3870ktoe
Poland12493
m3
11983M
g12456
Mg
n.a.m3
n.a.m3
n.a.m3
12493m3
4173ktoe
2002ktoe
2081ktoe
Portugal0
ton10878000
ton10684000
ton0
ton0
ton0
ton0
ton2731
ktoe2946
ktoe2894
ktoeR
omania
5500000m3
6500000m3
7500000m3
0m3
0m3
500000m3
5000000m3
1200ktoe
1560ktoe
1800ktoe
Slovenia1726688
m3
0m3
n.a.m3
4275m3
77579m3
247326m3
1561217m3
442ktoe
n.a.ktoe
n.a.ktoe
Slovakia1945000
ton3718000
ton4716000
tonn.a.
tonn.a.
ton238000
ton1707000
ton453.4
ktoe979
ktoe1222
ktoeFinland
21300000m3
41000000m3
47000000m3
0m3
0m3
193000ton
43000000m3
7273ktoe
6980ktoe
8060ktoe
Sweden
22951ktdm
25724ktdm
27029ktdm
175ktdm
175ktdm
129ktdm
23172ktdm
8206ktoe
9128ktoe
9628ktoe
United
Kingdom
1855534ton
3545000ton
5225000ton
81211ton
n.a.ton
n.a.ton
1936744ton
582ktoe
n.a.ktoe
n.a.ktoe
AllM
emberStates
145388617e
m3
190517090f
m3
209442901g
m3
3604311h
m3
355106i
m3
3591569j
m3
163937895k
m3
61320l
ktoe64207
mktoe
71758n
ktoe
Various
countrieshave
more
detailreportedon
biomass
supplyin
theintroduction
chapterofthisreport.See
Sections1.5
and1.8
inthe
main
reportavailablefrom
ww
w.ecn.nl/nreap.
The
Netherlands
applythe
unit‘ktonns’(w
etbase)inthe
NR
EA
P,which
hasbeen
abbreviatedin
thistable
as‘ktns’.
Sweden
appliesthe
unit‘ktondry
matter’in
theN
RE
AP,w
hichhas
beenabbreviated
inthis
tableas
‘ktdm’.
aForthe
Netherlands
adatarange
hasbeen
reportedhere:
759to
2607ktns.T
hetable
mentions
the(calculated)average
value.b
FortheN
etherlandsa
datarangehas
beenreported
here:910
to4300
ktns.The
tablem
entionsthe
(calculated)averagevalue.
cForthe
Netherlands
adatarange
hasbeen
reportedhere:207
to545
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
dForthe
Netherlands
adatarange
hasbeen
reportedhere:248
to868
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
eN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2006
arethe
following
countries:Belgium
(1167kt);B
ulgaria(2527513
t);Denm
ark(3489000
ton);Spain(10018750
ton);Cyprus
(16347ton);N
etherlands(2910
ktns);Austria
(16400000ktoe);Slovakia
(1945000ton);Sw
eden(22951
ktdm);U
nitedK
ingdom(1855534
ton)f
Notconsidered
inthe
EU
-27sum
inthe
‘amountof
domestic
resource’for
theyear
2015are
thefollow
ingcountries:
Belgium
(1893kt);B
ulgaria(2725
kt);Denm
ark(8265000
ton);Spain(11923266
ton);Netherlands
(759to
2607ktns);A
ustria(19500000
ktoe);Poland(11983
Mg);
Portugal(10878000ton);Slovakia
(3718000ton);Sw
eden(25724
ktdm);U
nitedK
ingdom(3545000
ton)g
Notconsidered
inthe
EU
-27sum
inthe
‘amountof
domestic
resource’for
theyear
2020are
thefollow
ingcountries:
Belgium
(2228kt);B
ulgaria(2951
kt);Denm
ark(8642000
ton);Spain(13997093
ton);Netherlands
(910to
4300ktns);A
ustria(21000000
ktoe);Poland(12456
Mg);
Portugal(10684000ton);Slovakia
(4716000ton);Sw
eden(27029
ktdm);U
nitedK
ingdom(5225000
ton)h
Notconsidered
inthe
EU
-27sum
inthe
‘imported
(eu)’fortheyear2006
arethe
following
countries:Belgium
(905kt);C
yprus(8608
ton);Netherlands
(690ktns);A
ustria(4170000
ktoe);Sweden
(175ktdm
);United
Kingdom
(81211ton)
iN
otconsideredin
theE
U-27
sumin
the‘im
ported(non-eu)’forthe
year2006are
thefollow
ingcountries:B
elgium(49
kt);Netherlands
(235ktns);Sw
eden(175
ktdm);
jN
otconsideredin
theE
U-27
sumin
the‘exported
(eu/non-eu)’fortheyear2006
arethe
following
countries:Bulgaria
(99888t);N
etherlands(1463
ktns);Austria
(50000ktoe);Slovakia
(238000ton);Finland
(193000ton);Sw
eden(129
ktdm);
kN
otconsideredin
theE
U-27
sumin
the‘netam
ount’for
theyear
2006are
thefollow
ingcountries:
Belgium
(2120kt);B
ulgaria(2427625
t);Spain(10018750
ton);Cyprus
(24928ton);N
etherlands(2088
ktns);Austria
(20520000ktoe);Slovakia
(1707000ton);Sw
eden(23172
ktdm);
United
Kingdom
(1936744ton)
lN
otconsideredin
theE
U-27
sumin
the‘prim
aryenergy
production’fortheyear2006
arethe
following
countries:Denm
ark(5326000
ton);Hungary
(25PJ/year);
mN
otconsideredin
theE
U-27
sumin
the‘prim
aryenergy
production’fortheyear2015
is:Hungary
(25PJ/year);
nN
otconsideredin
theE
U-27
sumin
the‘prim
aryenergy
production’fortheyear2020
is:Hungary
(27PJ/year);
52 ECN-E--10-069
28 NOV 2011 Biomass supply from forestry (direct) [various units]
Tabl
e58
:Bio
mas
ssu
pply
from
fore
stry
(dir
ect)
for
the
year
s20
06(i
nclu
ding
impo
rtan
dex
port
),20
15an
d20
20.
Am
ount
ofdo
mes
ticre
sour
ceIm
port
ed(E
U)
Impo
rted
(non
-EU
)E
xpor
ted
(EU
/non
-EU
)N
etam
ount
Prim
ary
ener
gypr
oduc
tion
2006
2015
2020
2006
2006
2006
2006
2006
2015
Bel
gium
532.
17kt
572.
3kt
572.
3kt
0kt
0kt
0kt
532.
17kt
211.
54kt
oe22
6.1
ktoe
225.
1kt
oeB
ulga
ria
2411
168
t26
10kt
2805
kt0
t0
t99
888
t23
1128
0t
735
ktoe
830
ktoe
892
ktoe
Cze
chR
epub
lic32
68m3
3868
m3
4412
m3
12m3
0m3
139
m3
3142
m3
975
ktoe
1223
ktoe
1405
ktoe
Den
mar
k30
0000
0to
n33
7600
0to
n37
5300
0to
n16
9400
0to
nn.
a.to
nn.
a.to
nn.
a.to
n48
3700
0to
n75
0kt
oe83
4kt
oeG
erm
any
2955
7000
m3
4169
3500
am3
3944
7000
m3
1150
00m3
n.a.
m3
n.a.
m3
2967
2000
m3
6162
ktoe
8659
bkt
oe81
92kt
oeE
ston
ia11
1500
0m3
3600
000
m3
3600
000
m3
1000
m3
2000
m3
8500
0m3
n.a.
m3
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Irel
and
2321
6m3
5120
00m3
807
m3
2182
m3
0m3
0m3
2539
8m3
n.a.
ktoe
79.5
3kt
oe12
5kt
oeG
reec
e29
0857
1m3
8000
00m3
8000
00m3
n.a.
m3
n.a.
m3
n.a.
m3
2908
571
m3
702
ktoe
136
ktoe
136
ktoe
Spai
n48
0000
0to
n63
2764
7to
n83
2232
8to
nn.
a.to
nn.
a.to
nn.
a.to
n48
0000
0to
n12
00kt
oe15
82kt
oe20
81kt
oeFr
ance
2903
0250
m3
3640
0000
cm3
4252
0000
dm3
4309
4m3
1404
m3
5596
60m3
2851
5088
m3
6256
ktoe
8035
ekt
oe94
81f
ktoe
Ital
y22
0000
0m3
4000
000
m3
1000
0000
m3
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
m3
880
ktoe
1600
ktoe
4000
ktoe
Cyp
rus
5432
ton
5000
gto
n50
00h
ton
383
ton
n.a.
ton
n.a.
ton
5815
ton
2.1
ktoe
1.8i
ktoe
1.8j
ktoe
Lat
via
1380
m3
n.a.
m3
n.a.
m3
90m3
n.a.
m3
2568
.6m3
4038
.6m3
2827
.02
ktoe
n.a.
ktoe
n.a.
ktoe
Lith
uani
a15
09m3
2327
000
m3
2082
000
m3
9m3
4m3
80/3
m3
1439
m3
282
ktoe
456
ktoe
408
ktoe
Lux
embo
urg
2450
0m3
2700
0m3
4400
0m3
9300
m3
n.a.
m3
1800
m3
3200
0m3
5.5
ktoe
24kt
oe40
ktoe
Hun
gary
3028
000
m3
3100
000
m3
3300
000
m3
1000
00m3
1000
00m3
1000
00m3
3128
000
m3
22.5
PJ/y
ear
22.3
2PJ
/yea
r23
.74
PJ/y
ear
Mal
ta0
m3
n.a.
m3
n.a.
m3
0m3
0m3
0m3
n.a.
m3
0kt
oen.
a.kt
oen.
a.kt
oeN
ethe
rlan
ds27
0kt
ns12
85k
ktns
2130
lkt
ns0
ktns
0kt
ns0
ktns
270
ktns
52kt
oe23
6mkt
oe38
9nkt
oeA
ustr
ia85
0000
0kt
oe10
0000
00kt
oe11
0000
00kt
oe32
0000
ktoe
n.a.
ktoe
5000
0kt
oe87
7000
0kt
oe17
35kt
oe19
78kt
oe21
75kt
oePo
land
1249
3m3
6411
Mg
6081
Mg
n.a.
m3
n.a.
m3
n.a.
m3
1249
3m3
1894
ktoe
1071
ktoe
1016
ktoe
Port
ugal
4751
000
ton
5778
000
ton
5610
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
1188
ktoe
1504
ktoe
1460
ktoe
Rom
ania
2500
000
m3
3000
000
m3
3500
000
m3
0m3
0m3
0m3
2500
000
m3
600
ktoe
720
ktoe
840
ktoe
Slov
enia
1318
077
m3
1302
000
m3
1338
000
m3
4275
m3
7757
9m3
2063
26m3
1193
606
m3
297
ktoe
324
ktoe
333
ktoe
Slov
akia
8200
00to
n18
1800
0to
n27
2100
0to
nn.
a.to
nn.
a.to
n54
000
ton
7660
00to
n18
3kt
oe43
4kt
oe65
0kt
oeFi
nlan
d83
0000
0m3
1400
0000
m3
1900
0000
m3
0m3
0m3
0m3
8300
000
m3
1446
ktoe
2380
ktoe
3230
ktoe
Swed
en51
20kt
dm61
66kt
dm68
19kt
dm0
ktdm
0kt
dm0
ktdm
5120
ktdm
2045
ktoe
2463
ktoe
2724
ktoe
Uni
ted
Kin
gdom
9000
00to
n15
6500
0to
n18
2500
0to
n0
ton
n.a.
ton
n.a.
ton
9000
00to
n29
9kt
oen.
a.kt
oen.
a.kt
oe
All
Mem
berS
tate
s80
0232
64o
m3
1107
6536
8pm3
1256
3621
9qm3
2749
62r
m3
1809
87m3
9554
94s
m3
7629
5776
tm3
2997
7ukt
oe34
712v
ktoe
4063
8wkt
oe
Var
ious
coun
trie
sha
vem
ore
deta
ilre
port
edon
biom
ass
supp
lyin
the
intr
oduc
tion
chap
tero
fthi
sre
port
.See
Sect
ions
1.5
and
1.8
inth
em
ain
repo
rtav
aila
ble
from
ww
w.e
cn.n
l/nre
ap.
The
Net
herl
ands
appl
yth
eun
it‘k
ton
ns’(
wet
base
)in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tns’
.Sw
eden
appl
ies
the
unit
‘kto
ndr
ym
atte
r’in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tdm
’.a
ForG
erm
any
ada
tara
nge
has
been
repo
rted
here
:410
6000
0to
4232
7000
m3.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
bFo
rGer
man
ya
data
rang
eha
sbe
enre
port
edhe
re:8
527
to87
90kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.c
For
Fran
cea
data
rang
eha
sbe
enre
port
edhe
re:
3470
0000
to38
1000
00m
3.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.d
For
Fran
cea
data
rang
eha
sbe
enre
port
edhe
re:
3844
0000
to46
6000
00m
3.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.e
For
Fran
cea
data
rang
eha
sbe
enre
port
edhe
re:7
660
to84
10kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.f
ForF
ranc
ea
data
rang
eha
sbe
enre
port
edhe
re:8
556
to10
406
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
gFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:450
0to
5500
ton.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
hFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:450
0to
5500
ton.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
iFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:1.6
to2.
0kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.j
ForC
ypru
sa
data
rang
eha
sbe
enre
port
edhe
re:1
.6to
2.0
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
kFo
rthe
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:361
to22
09kt
ns.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.l
Fort
heN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:4
35to
3825
ktns
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
mFo
rthe
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:67
to40
5kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.n
Fort
heN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:7
9to
699
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
oN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’
for
the
year
2006
are
the
follo
win
gco
untr
ies:
Bel
gium
(532
kt);
Bul
gari
a(2
4111
68t)
;D
enm
ark
(300
0000
ton)
;Sp
ain
(480
0000
ton)
;C
ypru
s(5
432
ton)
;N
ethe
rlan
ds(2
70kt
ns);
Aus
tria
(850
0000
ktoe
);Po
rtug
al(4
7510
00to
n);S
lova
kia
(820
000
ton)
;Sw
eden
(512
0kt
dm);
Uni
ted
Kin
gdom
(900
000
ton)
pN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’f
orth
eye
ar20
15ar
eth
efo
llow
ing
coun
trie
s:B
elgi
um(5
72kt
);B
ulga
ria
(261
0kt
);D
enm
ark
(337
6000
ton)
;Spa
in(6
3276
47to
n);C
ypru
s(4
500
to55
00to
n);N
ethe
rlan
ds(3
61to
2209
ktns
);A
ustr
ia(1
0000
000
ktoe
);Po
land
(641
1M
g);P
ortu
gal(
5778
000
ton)
;Slo
vaki
a(1
8180
00to
n);S
wed
en(6
166
ktdm
);U
nite
dK
ingd
om(1
5650
00to
n)q
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’for
the
year
2020
are
the
follo
win
gco
untr
ies:
Bel
gium
(572
kt);
Bul
gari
a(2
805
kt);
Den
mar
k(3
7530
00to
n);S
pain
(832
2328
ton)
;Cyp
rus
(450
0to
5500
ton)
;Net
herl
ands
(435
to38
25kt
ns);
Aus
tria
(110
0000
0kt
oe);
Pola
nd(6
081
Mg)
;Por
tuga
l(56
1000
0to
n);S
lova
kia
(272
1000
ton)
;Sw
eden
(681
9kt
dm);
Uni
ted
Kin
gdom
(182
5000
ton)
rN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘im
port
ed(e
u)’f
orth
eye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:D
enm
ark
(169
4000
ton)
;Cyp
rus
(383
ton)
;Aus
tria
(320
000
ktoe
);s
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘e
xpor
ted
(eu/
non-
eu)’
fort
heye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:B
ulga
ria
(998
88t)
;Aus
tria
(500
00kt
oe);
Slov
akia
(540
00to
n);
tN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘net
amou
nt’
for
the
year
2006
are
the
follo
win
gco
untr
ies:
Bel
gium
(532
kt);
Bul
gari
a(2
3112
80t)
;Spa
in(4
8000
00to
n);C
ypru
s(5
815
ton)
;Net
herl
ands
(270
ktns
);A
ustr
ia(8
7700
00kt
oe);
Slov
akia
(766
000
ton)
;Sw
eden
(512
0kt
dm);
Uni
ted
Kin
gdom
(900
000
ton)
uN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2006
are
the
follo
win
gco
untr
ies:
Den
mar
k(4
8370
00to
n);H
unga
ry(2
3PJ
/yea
r);
vN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2015
are
the
follo
win
gco
untr
ies:
Hun
gary
(22
PJ/y
ear)
;w
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘p
rim
ary
ener
gypr
oduc
tion’
fort
heye
ar20
20ar
eth
efo
llow
ing
coun
trie
s:H
unga
ry(2
4PJ
/yea
r);
ECN-E--10-069 53
Biomass supply from forestry (indirect) [various units] 28 NOV 2011
Table59:B
iomass
supplyfrom
forestry(indirect)for
theyears
2006(including
importand
export),2015and
2020.A
mountofdom
esticresource
Imported
(EU
)Im
ported(non-E
U)
Exported
(EU
/non-EU
)N
etamount
Primary
energyproduction
20062015
20202006
20062006
20062006
2015
Belgium
633.98kt
1320.48kt
1655.331kt
904.58kt
49.48kt
0kt
1588.14kt
602.83ktoe
505.93ktoe
643.49ktoe
Bulgaria
116345t
115kt
146kt
0t
0t
0t
116345t
24ktoe
30ktoe
38ktoe
Czech
Republic
2599m3
5389m3
5489m3
43m3
0m3
378m3
2264m3
561ktoe
1306ktoe
1311ktoe
Denm
ark489000
ton4889000
ton4889000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton489000
ton172
ktoe172
ktoeG
ermany
15756000m3
17139000m3
18174000m3
1725000m3
n.a.m3
n.a.m3
17481000m3
3630ktoe
3559ktoe
3774ktoe
Estonia
2500000m3
n.a.m3
n.a.m3
0m3
0m3
0m3
n.a.m3
n.a.ktoe
n.a.ktoe
n.a.ktoe
Ireland1280158
m3
581000m3
860m3
0m3
1089m3
0m3
1280158m3
n.a.ktoe
90.28ktoe
133ktoe
Greece
316988m3
133333m3
133333m3
n.a.m3
n.a.m3
n.a.m3
316988m3
27ktoe
28ktoe
28ktoe
Spain5218750
ton5595619
ton5674765
ton1000
ton0
ton1000
ton5218750
ton1600
ktoe1679
ktoe1702
ktoeFrance
30748004m3
34700000a
m3
36850000b
m3
1613361m3
172938m3
1943941m3
30590362m3
4773ktoe
5420c
ktoe5748
dktoe
Italyn.a.
m3
0m3
0m3
n.a.m3
n.a.m3
n.a.m3
n.a.m3
n.a.ktoe
0ktoe
0ktoe
Cyprus
10915ton
9000e
ton9000
fton
8225ton
n.a.ton
27ton
19113ton
6.9ktoe
3.3g
ktoe3.3
hktoe
Latvia
678m3
n.a.m3
n.a.m3
26.4m3
n.a.m3
756.8m3
1461.2m3
1022.84ktoe
n.a.ktoe
n.a.ktoe
Lithuania
2315m3
1163000m3
1040000m3
219m3
92m3
350/1m3
2275m3
446ktoe
228ktoe
204ktoe
Luxem
bourg250000
m3
32000m3
41000m3
n.a.m3
n.a.m3
150000m3
100000m3
17.1ktoe
25ktoe
67ktoe
Hungary
300000m3
400000m3
500000m3
0m3
0m3
0m3
300000m3
2.23PJ/year
2.97PJ/year
3.72PJ/year
Malta
0m3
n.a.m3
n.a.m3
0m3
0m3
0m3
n.a.m3
0ktoe
n.a.ktoe
n.a.ktoe
Netherlands
2640ktns
398ktns
475ktns
690ktns
235ktns
1463ktns
1818ktns
410ktoe
140ktoe
169ktoe
Austria
7900000ktoe
9500000ktoe
10000000ktoe
3850000ktoe
n.a.ktoe
n.a.ktoe
11750000ktoe
1990ktoe
1610ktoe
1695ktoe
Poland5930
Mg
5572M
g6375
Mg
n.a.M
gn.a.
Mg
n.a.M
g5930
Mg
2279ktoe
931ktoe
1065ktoe
Portugal5651000
ton5100000
ton5074000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton1543
ktoe1442
ktoe1434
ktoeR
omania
3000000m3
3500000m3
4000000m3
0m3
0m3
500000m3
2500000m3
600ktoe
840ktoe
960ktoe
Slovenia408611
m3
0m3
n.a.m3
0m3
0m3
41000m3
367611m3
145ktoe
n.a.ktoe
n.a.ktoe
Slovakia1125000
ton1900000
ton1995000
tonn.a.
tonn.a.
ton184000
ton941000
ton270.4
ktoe545
ktoe572
ktoeFinland
34700000m3
27000000m3
28000000m3
0m3
0m3
193000ton
34700000m3
5932ktoe
4600ktoe
4830ktoe
Sweden
17831ktdm
19558ktdm
20210ktdm
175ktdm
175ktdm
129ktdm
18052ktdm
6160ktoe
6665ktoe
6904ktoe
United
Kingdom
955534ton
1980000ton
3400000ton
81211ton
n.a.ton
n.a.ton
1036744ton
283ktoe
n.a.ktoe
n.a.ktoe
AllM
emberStates
89265353i
m3
84653722j
m3
88744682k
m3
3338649l
m3
174119m
m3
2636076n
m3
87642119o
m3
32323p
ktoe29819
qktoe
31453r
ktoe
Various
countrieshave
more
detailreportedon
biomass
supplyin
theintroduction
chapterofthisreport.See
Sections1.5
and1.8
inthe
main
reportavailablefrom
ww
w.ecn.nl/nreap.
The
Netherlands
applythe
unit‘ktonns’(w
etbase)inthe
NR
EA
P,which
hasbeen
abbreviatedin
thistable
as‘ktns’.
Sweden
appliesthe
unit‘ktondry
matter’in
theN
RE
AP,w
hichhas
beenabbreviated
inthis
tableas
‘ktdm’.
aFor
Francea
datarangehas
beenreported
here:33800000
to35600000
m3.
The
tablem
entionsthe
(calculated)average
value.b
ForFrance
adatarange
hasbeen
reportedhere:
35100000to
38600000m
3.T
hetable
mentions
the(calculated)
averagevalue.
cFor
Francea
datarangehas
beenreported
here:5280to
5560ktoe.T
hetable
mentions
the(calculated)average
value.d
ForFrancea
datarangehas
beenreported
here:5473to
6023ktoe.T
hetable
mentions
the(calculated)average
value.e
ForCyprus
adatarange
hasbeen
reportedhere:8000
to10000
ton.The
tablem
entionsthe
(calculated)averagevalue.
fForC
yprusa
datarangehas
beenreported
here:8000to
10000ton.T
hetable
mentions
the(calculated)average
value.g
ForCyprus
adatarange
hasbeen
reportedhere:
2.9to
3.6ktoe.T
hetable
mentions
the(calculated)average
value.h
ForCyprus
adatarange
hasbeen
reportedhere:2.9
to3.6
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
iN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2006
arethe
following
countries:B
elgium(634
kt);Bulgaria
(116345t);D
enmark
(489000ton);Spain
(5218750ton);C
yprus(10915
ton);Netherlands
(2640ktns);A
ustria(7900000
ktoe);Poland(5930
Mg);Portugal(5651000
ton);Slovakia(1125000
ton);Sweden
(17831ktdm
);United
Kingdom
(955534ton)
jN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2015
arethe
following
countries:B
elgium(1320
kt);Bulgaria
(115kt);D
enmark
(4889000ton);Spain
(5595619ton);C
yprus(8000
to10000
ton);Netherlands
(398ktns);A
ustria(9500000
ktoe);Poland(5572
Mg);Portugal(5100000
ton);Slovakia(1900000
ton);Sweden
(19558ktdm
);United
Kingdom
(1980000ton)
kN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2020
arethe
following
countries:Belgium
(1655kt);B
ulgaria(146
kt);Denm
ark(4889000
ton);Spain(5674765
ton);Cyprus
(8000to
10000ton);N
etherlands(475
ktns);Austria
(10000000ktoe);Poland
(6375M
g);Portugal(5074000ton);Slovakia
(1995000ton);Sw
eden(20210
ktdm);U
nitedK
ingdom(3400000
ton)l
Notconsidered
inthe
EU
-27sum
inthe
‘imported
(eu)’fortheyear2006
arethe
following
countries:Belgium
(905kt);Spain
(1000ton);C
yprus(8225
ton);Netherlands
(690ktns);A
ustria(3850000
ktoe);Sweden
(175ktdm
);United
Kingdom
(81211ton)
mN
otconsideredin
theE
U-27
sumin
the‘im
ported(non-eu)’forthe
year2006are
thefollow
ingcountries:B
elgium(49
kt);Netherlands
(235ktns);Sw
eden(175
ktdm);
nN
otconsideredin
theE
U-27
sumin
the‘exported
(eu/non-eu)’fortheyear2006
arethe
following
countries:Spain(1000
ton);Cyprus
(27ton);N
etherlands(1463
ktns);Slovakia(184000
ton);Finland(193000
ton);Sweden
(129ktdm
);o
Notconsidered
inthe
EU
-27sum
inthe
‘netamount’
forthe
year2006
arethe
following
countries:B
elgium(1588
kt);Bulgaria
(116345t);Spain
(5218750ton);C
yprus(19113
ton);Netherlands
(1818ktns);A
ustria(11750000
ktoe);Poland(5930
Mg);Slovakia
(941000ton);Sw
eden(18052
ktdm);U
nitedK
ingdom(1036744
ton)p
Notconsidered
inthe
EU
-27sum
inthe
‘primary
energyproduction’forthe
year2006are
thefollow
ingcountries:D
enmark
(489000ton);H
ungary(2
PJ/year);q
Notconsidered
inthe
EU
-27sum
inthe
‘primary
energyproduction’forthe
year2015is:H
ungary(3
PJ/year);r
Notconsidered
inthe
EU
-27sum
inthe
‘primary
energyproduction’forthe
year2020is:H
ungary(4
PJ/year);
54 ECN-E--10-069
28 NOV 2011 Biomass supply from agriculture and fisheries (total) [various units]
Tabl
e60
:Bio
mas
ssu
pply
from
agri
cultu
rean
dfis
heri
es(t
otal
)for
the
year
s20
06(i
nclu
ding
impo
rtan
dex
port
),20
15an
d20
20.
Am
ount
ofdo
mes
ticre
sour
ceIm
port
ed(E
U)
Impo
rted
(non
-EU
)E
xpor
ted
(EU
/non
-EU
)N
etam
ount
Prim
ary
ener
gypr
oduc
tion
2006
2015
2020
2006
2006
2006
2006
2006
2015
Bel
gium
1835
.35
kt39
58.5
kt88
55.6
kt74
.4kt
33.2
6kt
0kt
1913
.01
kt87
.39
ktoe
440.
5kt
oe10
30.3
ktoe
Bul
gari
a19
466
t54
2kt
705
kt0
t0
t0
t19
466
t5
ktoe
130
ktoe
169
ktoe
Cze
chR
epub
licn.
a.to
n80
0to
n10
00to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oe28
6kt
oe35
8kt
oeD
enm
ark
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
n.a.
ktoe
Ger
man
y21
4100
00to
nn.
a.to
nn.
a.to
n67
1200
0to
nn.
a.to
nn.
a.to
n28
1220
00to
n73
57kt
oe78
46.5
ktoe
9135
.5kt
oeE
ston
ian.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oen.
a.kt
oen.
a.kt
oeIr
elan
d21
5727
ton
1009
595
ton
2472
928
ton
0to
n0
ton
0to
n0
ton
n.a.
ktoe
382
ktoe
775
ktoe
Gre
ece
5088
86to
n10
0750
00to
n23
1760
00to
nn.
a.to
nn.
a.to
nn.
a.to
n50
8.88
6to
n20
2kt
oe12
68kt
oe16
59kt
oeSp
ain
5230
853
ton
1731
8204
ton
3520
8662
ton
n.a.
ton
n.a.
ton
1413
30to
n60
1544
5to
n17
12kt
oe22
62kt
oe32
40kt
oeFr
ance
4726
930
ton
0to
n15
9100
00to
nn.
a.to
nn.
a.to
n45
200
ton
4681
730
ton
1217
ktoe
3005
ktoe
4210
ktoe
Ital
y26
7500
0to
n64
8160
0to
n20
2000
00to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n88
3kt
oe26
00kt
oe65
00kt
oeC
ypru
s28
41to
n30
00to
n55
00to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n1.
003
ktoe
21.2
ktoe
20.9
ktoe
Lat
via
5590
.222
ktoe
0to
n0
ton
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Lith
uani
a0
m3
1184
kt42
82kt
0m3
0m3
0m3
0m3
0kt
oe15
9kt
oe33
5kt
oeL
uxem
bour
gn.
a.to
n45
000
ton
7200
0to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n10
ktoe
25kt
oe39
ktoe
Hun
gary
3020
00to
n36
0000
0to
n58
5000
0to
nn.
a.to
nn.
a.to
nn.
a.to
n30
2000
ton
2.18
PJ/y
ear
27.2
4PJ
/yea
r47
.31
PJ/y
ear
Mal
tan.
a.to
nn.
a.to
nn.
a.to
n0
ton
0to
n0
ton
n.a.
ton
0kt
oen.
a.kt
oen.
a.kt
oeN
ethe
rlan
ds15
50kt
ns15
224a
ktns
2685
2bkt
ns35
0kt
ns0
ktns
0kt
ns19
00kt
ns55
1kt
oe11
93c
ktoe
2031
dkt
oeA
ustr
ia93
0000
ktoe
5350
000
ktoe
9770
000
ktoe
2700
00kt
oen.
a.kt
oen.
a.kt
oe12
0000
0kt
oe33
7kt
oe42
0kt
oe73
0kt
oePo
land
4328
ton
7104
Mg
1148
4M
g9
ton
0to
n29
0to
n55
0to
n46
1kt
oe17
63kt
oe29
29kt
oePo
rtug
al0
ton
1050
000
ton
1131
000
ton
0to
n0
ton
0to
n0
ton
n.a.
ktoe
302
ktoe
326
ktoe
Rom
ania
1900
000
ton
n.a.
ton
n.a.
ton
0to
n0
ton
0to
n0
ton
817
ktoe
n.a.
ktoe
n.a.
ktoe
Slov
enia
n.a.
ton
0to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oen.
a.kt
oen.
a.kt
oeSl
ovak
ian.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n15
1.8
ktoe
2180
ktoe
2194
ktoe
Finl
and
1270
80to
n58
7500
ton
1175
000
ton
0to
n0
ton
0to
n12
8080
ton
54.3
4kt
oe24
8kt
oe49
7kt
oeSw
eden
585
ktdm
793
ktdm
967
ktdm
307
ktdm
595
ktdm
0kt
dm14
87kt
dm61
7kt
oe32
2kt
oe40
8kt
oeU
nite
dK
ingd
om10
5726
5to
n48
0500
0to
n17
8650
00to
n73
6086
ton
n.a.
ton
n.a.
ton
1793
352
ton
709
ktoe
n.a.
ktoe
n.a.
ktoe
All
Mem
berS
tate
s18
35e
kt56
85f
kt13
843g
kt74
hkt
33i
kt0j
kt19
13k
kt15
173l
ktoe
2485
3mkt
oe36
586n
ktoe
Var
ious
coun
trie
sha
vem
ore
deta
ilre
port
edon
biom
ass
supp
lyin
the
intr
oduc
tion
chap
tero
fthi
sre
port
.See
Sect
ions
1.5
and
1.8
inth
em
ain
repo
rtav
aila
ble
from
ww
w.e
cn.n
l/nre
ap.
The
Net
herl
ands
appl
yth
eun
it‘k
ton
ns’(
wet
base
)in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tns’
.Sw
eden
appl
ies
the
unit
‘kto
ndr
ym
atte
r’in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tdm
’.a
For
the
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:59
99to
2444
8kt
ns.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
bFo
rth
eN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:
9941
to43
763
ktns
.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.c
For
the
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:798
to15
87kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.d
Fort
heN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:1
307
to27
54kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.e
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Bul
gari
a(1
9466
t);G
erm
any
(214
1000
0to
n);I
rela
nd(2
1572
7to
n);G
reec
e(5
0888
6to
n);S
pain
(523
0853
ton)
;Fra
nce
(472
6930
ton)
;Ita
ly(2
6750
00to
n);C
ypru
s(2
841
ton)
;Lat
via
(559
0kt
oe);
Hun
gary
(302
000
ton)
;Net
herl
ands
(155
0kt
ns);
Aus
tria
(930
000
ktoe
);Po
land
(432
8to
n);R
oman
ia(1
9000
00to
n);F
inla
nd(1
2708
0to
n);S
wed
en(5
85kt
dm);
Uni
ted
Kin
gdom
(105
7265
ton)
fN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’
for
the
year
2015
are
the
follo
win
gco
untr
ies:
Cze
chR
epub
lic(8
00to
n);
Irel
and
(100
9595
ton)
;G
reec
e(1
0075
000
ton)
;Sp
ain
(173
1820
4to
n);
Ital
y(6
4816
00to
n);
Cyp
rus
(300
0to
n);
Lux
embo
urg
(450
00to
n);
Hun
gary
(360
0000
ton)
;Net
herl
ands
(599
9to
2444
8kt
ns);
Aus
tria
(535
0000
ktoe
);Po
land
(710
4M
g);P
ortu
gal(
1050
000
ton)
;Fin
land
(587
500
ton)
;Sw
eden
(793
ktdm
);U
nite
dK
ingd
om(4
8050
00to
n)g
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’fo
rth
eye
ar20
20ar
eth
efo
llow
ing
coun
trie
s:C
zech
Rep
ublic
(100
0to
n);
Irel
and
(247
2928
ton)
;G
reec
e(2
3176
000
ton)
;Sp
ain
(352
0866
2to
n);
Fran
ce(1
5910
000
ton)
;It
aly
(202
0000
0to
n);
Cyp
rus
(550
0to
n);
Lux
embo
urg
(720
00to
n);H
unga
ry(5
8500
00to
n);N
ethe
rlan
ds(9
941
to43
763
ktns
);A
ustr
ia(9
7700
00kt
oe);
Pola
nd(1
1484
Mg)
;Por
tuga
l(11
3100
0to
n);F
inla
nd(1
1750
00to
n);S
wed
en(9
67kt
dm);
Uni
ted
Kin
gdom
(178
6500
0to
n)h
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘i
mpo
rted
(eu)
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Ger
man
y(6
7120
00to
n);N
ethe
rlan
ds(3
50kt
ns);
Aus
tria
(270
000
ktoe
);Po
land
(9to
n);S
wed
en(3
07kt
dm);
Uni
ted
Kin
gdom
(736
086
ton)
iN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘im
port
ed(n
on-e
u)’f
orth
eye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:Sw
eden
(595
ktdm
);j
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘e
xpor
ted
(eu/
non-
eu)’
fort
heye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:Sp
ain
(141
330
ton)
;Fra
nce
(452
00to
n);P
olan
d(2
90to
n);
kN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘net
amou
nt’f
orth
eye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:B
ulga
ria
(194
66t)
;Ger
man
y(2
8122
000
ton)
;Gre
ece
(509
ton)
;Spa
in(6
0154
45to
n);F
ranc
e(4
6817
30to
n);H
unga
ry(3
0200
0to
n);N
ethe
rlan
ds(1
900
ktns
);A
ustr
ia(1
2000
00kt
oe);
Pola
nd(5
50to
n);F
inla
nd(1
2808
0to
n);S
wed
en(1
487
ktdm
);U
nite
dK
ingd
om(1
7933
52to
n)l
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘p
rim
ary
ener
gypr
oduc
tion’
fort
heye
ar20
06is
:Hun
gary
(2PJ
/yea
r);
mN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2015
is:H
unga
ry(2
7PJ
/yea
r);
nN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2020
is:H
unga
ry(4
7PJ
/yea
r);
ECN-E--10-069 55
Biomass supply from agriculture and fisheries (direct) [various units] 28 NOV 2011
Table61:B
iomass
supplyfrom
agricultureand
fisheries(direct)for
theyears
2006(including
importand
export),2015and
2020.A
mountofdom
esticresource
Imported
(EU
)Im
ported(non-E
U)
Exported
(EU
/non-EU
)N
etamount
Primary
energyproduction
20062015
20202006
20062006
20062006
2015
Belgium
30kt
1497.7kt
3404.7kt
0kt
33.26kt
0kt
63.26kt
29.69ktoe
221.6ktoe
489.8ktoe
Bulgaria
0t
417kt
542kt
0t
0t
0t
0t
0ktoe
100ktoe
130ktoe
Czech
Republic
n.a.ton
400ton
500ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
143ktoe
179ktoe
Denm
arkn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoen.a.
ktoeG
ermany
15331000ton
22390000ton
6903000ton
6362000ton
n.a.ton
n.a.ton
21693000ton
6688ktoe
6903ktoe
7619ktoe
Estonia
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
n.a.ktoe
n.a.ktoe
Ireland4068
ton472160
ton715400
ton0
ton0
ton0
ton0
tonn.a.
ktoe247
ktoe335
ktoeG
reecen.a.
ton75000
ton176000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoe68
ktoe159
ktoeSpain
457852ton
2442108ton
4355772ton
546083ton
379839ton
0ton
1383774ton
277ktoe
733ktoe
1307ktoe
France3453430
ton10440000
ton13410000
tonn.a.
tonn.a.
tonn.a.
ton3453430
ton802
ktoe2505
ktoe3210
ktoeItaly
500000ton
1600ton
4000000ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
150ktoe
640ktoe
1600ktoe
Cyprus
400ton
500ton
500ton
n.a.ton
n.a.ton
n.a.ton
400ton
0.1ktoe
8.5ktoe
0.7ktoe
Latvia
48.222ktoe
87247U
nknown
90737U
nknown
n.a.ktoe
0.824ktoe
n.a.ktoe
49.046ktoe
17164968thousand
litresn.a.
ktoen.a.
ktoeL
ithuanian.a.
m3
514kt
1102kt
n.a.m3
n.a.m3
n.a.m3
n.a.m3
n.a.ktoe
130ktoe
238ktoe
Luxem
bourg16600
ton25000
ton38000
tonn.a.
tonn.a.
tonn.a.
ton16600
ton4.5
ktoe7
ktoe14
ktoeH
ungary68000
ton1500000
ton3000000
tonn.a.
tonn.a.
tonn.a.
ton68000
ton0.8
PJ/year15.1
PJ/year30.14
PJ/yearM
altan.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton0
tonn.a.
ton0
ktoen.a.
ktoen.a.
ktoeN
etherlands50
ktns1515
aktns
2745b
ktns0
ktns0
ktns0
ktns50
ktns8
ktoe184
cktoe
333d
ktoeA
ustria330000
ktoe1050000
ktoe1770000
ktoe270000
ktoen.a.
ktoen.a.
ktoe600000
ktoe325
ktoe300
ktoe500
ktoePoland
2164ton
1414M
g4056
Mg
9ton
n.a.ton
290ton
550ton
124ktoe
405ktoe
1156ktoe
Portugaln.a.
ton990000
ton1043000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoe281
ktoe296
ktoeR
omania
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
n.a.ktoe
n.a.ktoe
Slovenian.a.
ton0
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoen.a.
ktoen.a.
ktoeSlovakia
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
126.8ktoe
180ktoe
194ktoe
Finland68930
ton355000
ton710000
ton0
ton0
ton0
ton68930
ton35.57
ktoe152
ktoe301
ktoeSw
eden258
ktdm693
ktdm867
ktdm307
ktdm595
ktdm0
ktdm1160
ktdm423
ktoe288
ktoe374
ktoeU
nitedK
ingdom3057
ton3630000
ton16680000
ton0
tonn.a.
tonn.a.
ton3057
ton1
ktoen.a.
ktoen.a.
ktoe
AllM
emberStates
30e
kt2429
fkt
5049g
kt0h
kt33
ikt
0j
kt63
kkt
8995l
ktoe13496
mktoe
18435n
ktoe
Various
countrieshave
more
detailreportedon
biomass
supplyin
theintroduction
chapterofthisreport.See
Sections1.5
and1.8
inthe
main
reportavailablefrom
ww
w.ecn.nl/nreap.
The
Netherlands
applythe
unit‘ktonns’(w
etbase)inthe
NR
EA
P,which
hasbeen
abbreviatedin
thistable
as‘ktns’.
Sweden
appliesthe
unit‘ktondry
matter’in
theN
RE
AP,w
hichhas
beenabbreviated
inthis
tableas
‘ktdm’.
aForthe
Netherlands
adatarange
hasbeen
reportedhere:
452to
2578ktns.T
hetable
mentions
the(calculated)average
value.b
FortheN
etherlandsa
datarangehas
beenreported
here:796
to4693
ktns.The
tablem
entionsthe
(calculated)averagevalue.
cForthe
Netherlands
adatarange
hasbeen
reportedhere:60
to308
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
dForthe
Netherlands
adatarange
hasbeen
reportedhere:105
to560
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
eN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2006
arethe
following
countries:Germ
any(15331000
ton);Ireland(4068
ton);Spain(457852
ton);France(3453430
ton);Italy(500000
ton);Cyprus
(400ton);L
atvia(48
ktoe);Luxem
bourg(16600
ton);H
ungary(68000
ton);Netherlands
(50ktns);A
ustria(330000
ktoe);Poland(2164
ton);Finland(68930
ton);Sweden
(258ktdm
);United
Kingdom
(3057ton)
fN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2015
arethe
following
countries:Czech
Republic
(400ton);G
ermany
(22390000ton);Ireland
(472160ton);G
reece(75000
ton);Spain(2442108
ton);France(10440000
ton);Italy(1600
ton);Cyprus
(500ton);L
atvia(87247
Unknow
n);Luxem
bourg(25000
ton);Hungary
(1500000ton);N
etherlands(452
to2578
ktns);Austria
(1050000ktoe);Poland
(1414M
g);Portugal(990000ton);Finland
(355000ton);Sw
eden(693
ktdm);U
nitedK
ingdom(3630000
ton)g
Notconsidered
inthe
EU
-27sum
inthe
‘amountofdom
esticresource’forthe
year2020are
thefollow
ingcountries:
Czech
Republic
(500ton);G
ermany
(6903000ton);Ireland
(715400ton);G
reece(176000
ton);Spain(4355772
ton);France(13410000
ton);Italy(4000000
ton);Cyprus
(500ton);L
atvia(90737
Unknow
n);Luxem
bourg(38000
ton);Hungary
(3000000ton);N
etherlands(796
to4693
ktns);Austria
(1770000ktoe);Poland
(4056M
g);Portugal(1043000ton);Finland
(710000ton);Sw
eden(867
ktdm);U
nitedK
ingdom(16680000
ton)h
Notconsidered
inthe
EU
-27sum
inthe
‘imported
(eu)’fortheyear2006
arethe
following
countries:Germ
any(6362000
ton);Spain(546083
ton);Austria
(270000ktoe);Poland
(9ton);Sw
eden(307
ktdm);
iN
otconsideredin
theE
U-27
sumin
the‘im
ported(non-eu)’forthe
year2006are
thefollow
ingcountries:Spain
(379839ton);L
atvia(1
ktoe);Sweden
(595ktdm
);j
Notconsidered
inthe
EU
-27sum
inthe
‘exported(eu/non-eu)’forthe
year2006are
thefollow
ingcountries:Poland
(290ton);
kN
otconsideredin
theE
U-27
sumin
the‘netam
ount’for
theyear
2006are
thefollow
ingcountries:
Germ
any(21693000
ton);Spain(1383774
ton);France(3453430
ton);Cyprus
(400ton);L
atvia(49
ktoe);Luxem
bourg(16600
ton);Hungary
(68000ton);N
etherlands(50
ktns);Austria
(600000ktoe);Poland
(550ton);Finland
(68930ton);Sw
eden(1160
ktdm);U
nitedK
ingdom(3057
ton)l
Notconsidered
inthe
EU
-27sum
inthe
‘primary
energyproduction’forthe
year2006are
thefollow
ingcountries:L
atvia(17164968
thousandlitres);H
ungary(1
PJ/year);m
Notconsidered
inthe
EU
-27sum
inthe
‘primary
energyproduction’forthe
year2015is:H
ungary(15
PJ/year);n
Notconsidered
inthe
EU
-27sum
inthe
‘primary
energyproduction’forthe
year2020is:H
ungary(30
PJ/year);
56 ECN-E--10-069
28 NOV 2011 Biomass supply from agriculture and fisheries (by-products) [various units]
Tabl
e62
:Bio
mas
ssu
pply
from
agri
cultu
rean
dfis
heri
es(b
y-pr
oduc
ts)f
orth
eye
ars
2006
(inc
ludi
ngim
port
and
expo
rt),
2015
and
2020
.A
mou
ntof
dom
estic
reso
urce
Impo
rted
(EU
)Im
port
ed(n
on-E
U)
Exp
orte
d(E
U/n
on-E
U)
Net
amou
ntPr
imar
yen
ergy
prod
uctio
n
2006
2015
2020
2006
2006
2006
2006
2006
2015
Bel
gium
1805
.35
kt24
60.8
kt54
50.9
kt74
.4kt
0kt
0kt
1879
.75
kt57
.88
ktoe
218.
9kt
oe54
0.5
ktoe
Bul
gari
a19
466
t12
5kt
163
kt0
t0
t0
t19
466
t5
ktoe
30kt
oe39
ktoe
Cze
chR
epub
lic88
ton
400
ton
500
ton
0to
n0
ton
0to
n88
ton
32kt
oe14
3kt
oe17
9kt
oeD
enm
ark
1488
000
ton
1549
000
ton
1549
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
1488
000
ton
621
ktoe
705
ktoe
Ger
man
y60
7900
0to
n90
6700
0ato
n14
5735
00b
ton
3500
00to
nn.
a.to
nn.
a.to
n64
2900
0to
n66
9kt
oe94
4ckt
oe15
17d
ktoe
Est
onia
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Irel
and
2116
59to
n53
7435
ton
1757
528
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
135
ktoe
440
ktoe
Gre
ece
5088
86to
n10
0000
00to
n23
0000
00to
nn.
a.to
nn.
a.to
nn.
a.to
n50
8886
ton
202
ktoe
1200
ktoe
1500
ktoe
Spai
n47
7300
1to
n14
8760
96to
n30
8528
90to
nn.
a.to
nn.
a.to
n14
1330
ton
4631
671
ton
1435
ktoe
1529
ktoe
1933
ktoe
Fran
ce12
7350
0to
n12
5000
0to
ndr
y25
0000
0to
n0
ton
0to
n45
200
ton
1228
300
ton
391
ktoe
500
ktoe
1000
ktoe
Ital
yn.
a.to
n64
8000
0to
n16
2000
00to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oe19
60kt
oe49
00kt
oeC
ypru
s24
41to
n25
00to
n50
00to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n0.
903
ktoe
12.7
ktoe
20.2
ktoe
Lat
via
5542
ktoe
n.a.
ton
n.a.
ton
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Lith
uani
an.
a.m3
670
kt31
80kt
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
ktoe
29kt
oe97
ktoe
Lux
embo
urg
n.a.
ton
2000
0to
n34
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
5.5
ktoe
18kt
oe25
ktoe
Hun
gary
2340
00to
n21
0000
0to
n28
5000
0to
nn.
a.to
nn.
a.to
nn.
a.to
n23
4000
ton
1.38
PJ/y
ear
12.1
4PJ
/yea
r17
.17
PJ/y
ear
Mal
ta28
0000
ton
2800
00to
n28
0000
ton
0to
n0
ton
0to
n28
0000
ton
0kt
oe3.
97kt
oe3.
97kt
oeN
ethe
rlan
ds15
00kt
ns13
709e
ktns
2410
8fkt
ns35
0kt
ns0
ktns
0kt
ns18
50kt
ns54
3kt
oe10
09g
ktoe
1698
hkt
oeA
ustr
ia60
0000
ktoe
4300
000
ktoe
8000
000
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
6000
00kt
oe12
ktoe
120
ktoe
230
ktoe
Pola
nd12
00M
g56
90M
g74
28M
gn.
a.M
gn.
a.M
gn.
a.M
g12
00M
g33
7kt
oe13
58kt
oe17
73kt
oePo
rtug
al27
000
ton
6000
0to
n88
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
7kt
oe21
ktoe
30kt
oeR
oman
ia19
0000
0to
n37
1800
0to
n37
6200
0to
n0
ton
0to
n0
ton
0to
n81
7kt
oe15
86kt
oe16
04kt
oeSl
oven
ian.
a.to
n0
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Slov
akia
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
25kt
oe20
00kt
oe20
00kt
oeFi
nlan
d58
150
ton
2325
00to
n46
5000
ton
0to
n0
ton
0to
n59
150
ton
31.8
6kt
oe96
ktoe
196
ktoe
Swed
en32
7kt
dm10
0kt
dm10
0kt
dm0
ktdm
0kt
dm0
ktdm
327
ktdm
194
ktoe
34kt
oe34
ktoe
Uni
ted
Kin
gdom
1054
208
ton
1175
000
ton
1185
000
ton
7360
86to
nn.
a.to
nn.
a.to
n17
9029
5to
n70
8kt
oen.
a.kt
oen.
a.kt
oe
All
Mem
berS
tate
s18
05i
kt32
56j
kt87
94k
kt74
lkt
0mkt
0nkt
1880
okt
5473
pkt
oe13
568q
ktoe
2046
4rkt
oe
Var
ious
coun
trie
sha
vem
ore
deta
ilre
port
edon
biom
ass
supp
lyin
the
intr
oduc
tion
chap
tero
fthi
sre
port
.See
Sect
ions
1.5
and
1.8
inth
em
ain
repo
rtav
aila
ble
from
ww
w.e
cn.n
l/nre
ap.
The
Net
herl
ands
appl
yth
eun
it‘k
ton
ns’(
wet
base
)in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tns’
.Sw
eden
appl
ies
the
unit
‘kto
ndr
ym
atte
r’in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tdm
’.a
ForG
erm
any
ada
tara
nge
has
been
repo
rted
here
:78
0300
0to
1033
1000
ton.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
bFo
rGer
man
ya
data
rang
eha
sbe
enre
port
edhe
re:
1124
4000
to17
9030
00to
n.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.c
ForG
erm
any
ada
tara
nge
has
been
repo
rted
here
:812
to10
75kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.d
ForG
erm
any
ada
tara
nge
has
been
repo
rted
here
:117
0to
1863
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
eFo
rth
eN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:
5547
to21
870
ktns
.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.f
For
the
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:91
45to
3907
0kt
ns.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
gFo
rth
eN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:7
38to
1279
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
hFo
rthe
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:120
2to
2194
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
iN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’
for
the
year
2006
are
the
follo
win
gco
untr
ies:
Bul
gari
a(1
9466
t);C
zech
Rep
ublic
(88
ton)
;Den
mar
k(1
4880
00to
n);G
erm
any
(607
9000
ton)
;Ire
land
(211
659
ton)
;Gre
ece
(508
886
ton)
;Spa
in(4
7730
01to
n);F
ranc
e(1
2735
00to
n);C
ypru
s(2
441
ton)
;Lat
via
(554
2kt
oe);
Hun
gary
(234
000
ton)
;Mal
ta(2
8000
0to
n);N
ethe
rlan
ds(1
500
ktns
);A
ustr
ia(6
0000
0kt
oe);
Pola
nd(1
200
Mg)
;Por
tuga
l(27
000
ton)
;Rom
ania
(190
0000
ton)
;Fin
land
(581
50to
n);S
wed
en(3
27kt
dm);
Uni
ted
Kin
gdom
(105
4208
ton)
jN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’
for
the
year
2015
are
the
follo
win
gco
untr
ies:
Cze
chR
epub
lic(4
00to
n);D
enm
ark
(154
9000
ton)
;Ger
man
y(7
8030
00to
1033
1000
ton)
;Ire
land
(537
435
ton)
;Gre
ece
(100
0000
0to
n);S
pain
(148
7609
6to
n);F
ranc
e(1
2500
00to
ndr
y);I
taly
(648
0000
ton)
;Cyp
rus
(250
0to
n);L
uxem
bour
g(2
0000
ton)
;Hun
gary
(210
0000
ton)
;Mal
ta(2
8000
0to
n);N
ethe
rlan
ds(5
547
to21
870
ktns
);A
ustr
ia(4
3000
00kt
oe);
Pola
nd(5
690
Mg)
;Por
tuga
l(60
000
ton)
;Rom
ania
(371
8000
ton)
;Fin
land
(232
500
ton)
;Sw
eden
(100
ktdm
);U
nite
dK
ingd
om(1
1750
00to
n)k
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’for
the
year
2020
are
the
follo
win
gco
untr
ies:
Cze
chR
epub
lic(5
00to
n);D
enm
ark
(154
9000
ton)
;Ger
man
y(1
1244
000
to17
9030
00to
n);I
rela
nd(1
7575
28to
n);G
reec
e(2
3000
000
ton)
;Spa
in(3
0852
890
ton)
;Fra
nce
(250
0000
ton)
;Ita
ly(1
6200
000
ton)
;Cyp
rus
(500
0to
n);L
uxem
bour
g(3
4000
ton)
;Hun
gary
(285
0000
ton)
;Mal
ta(2
8000
0to
n);N
ethe
rlan
ds(9
145
to39
070
ktns
);A
ustr
ia(8
0000
00kt
oe);
Pola
nd(7
428
Mg)
;Por
tuga
l(88
000
ton)
;Rom
ania
(376
2000
ton)
;Fin
land
(465
000
ton)
;Sw
eden
(100
ktdm
);U
nite
dK
ingd
om(1
1850
00to
n)l
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘i
mpo
rted
(eu)
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Ger
man
y(3
5000
0to
n);N
ethe
rlan
ds(3
50kt
ns);
Uni
ted
Kin
gdom
(736
086
ton)
mN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘im
port
ed(n
on-e
u)’f
orth
eye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:n
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘e
xpor
ted
(eu/
non-
eu)’
fort
heye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:Sp
ain
(141
330
ton)
;Fra
nce
(452
00to
n);
oN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘net
amou
nt’
for
the
year
2006
are
the
follo
win
gco
untr
ies:
Bul
gari
a(1
9466
t);
Cze
chR
epub
lic(8
8to
n);
Ger
man
y(6
4290
00to
n);
Gre
ece
(508
886
ton)
;Sp
ain
(463
1671
ton)
;Fr
ance
(122
8300
ton)
;H
unga
ry(2
3400
0to
n);
Mal
ta(2
8000
0to
n);
Net
herl
ands
(185
0kt
ns);
Aus
tria
(600
000
ktoe
);Po
land
(120
0M
g);F
inla
nd(5
9150
ton)
;Sw
eden
(327
ktdm
);U
nite
dK
ingd
om(1
7902
95to
n)p
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘p
rim
ary
ener
gypr
oduc
tion’
fort
heye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:D
enm
ark
(148
8000
ton)
;Hun
gary
(1PJ
/yea
r);
qN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2015
is:H
unga
ry(1
2PJ
/yea
r);
rN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2020
is:H
unga
ry(1
7PJ
/yea
r);
ECN-E--10-069 57
Biomass supply from waste (total) [various units] 28 NOV 2011
Table63:B
iomass
supplyfrom
waste
(total)forthe
years2006
(includingim
portandexport),2015
and2020.
Am
ountofdomestic
resourceIm
ported(E
U)
Imported
(non-EU
)E
xported(E
U/non-E
U)
Netam
ountPrim
aryenergy
production
20062015
20202006
20062006
20062006
2015
Belgium
1857.33kt
2401kt
3225.7kt
152.9kt
0kt
0kt
2010.14kt
289ktoe
482.6ktoe
457ktoe
Bulgaria
369992t
950kt
1250kt
0t
0t
0t
369992t
59ktoe
144ktoe
194ktoe
Czech
Republic
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
76ktoe
n.a.ktoe
183ktoe
Denm
arkn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton2152000
ton611
ktoe683
ktoeG
ermany
4321000ton
8374000ton
8088000ton
n.a.ton
n.a.ton
n.a.ton
4012000ton
692ktoe
1863ktoe
2054ktoe
Estonia
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
n.a.ktoe
n.a.ktoe
Ireland27473
ton788870
ton1457532
ton0
ton0
ton0
ton0
tonn.a.
ktoe235
ktoe435
ktoeG
reece79038904
ton60000000
ton60000000
tonn.a.
tonn.a.
tonn.a.
ton79038904
ton33
ktoe35.5
ktoe35.5
ktoeSpain
4924307ton
9698185ton
12080478ton
n.a.ton
n.a.ton
n.a.ton
4669907ton
377.6ktoe
742.9ktoe
1006ktoe
France8600000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton8600000
ton1345
ktoe1836
ktoe2236
ktoeItaly
2937500ton
3216000ton
8030000ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
711ktoe
940ktoe
2350ktoe
Cyprus
1245ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
1245ton
0.5ktoe
4.05ktoe
6.4ktoe
Latvia
94.2ktoe
n.a.ton
n.a.ton
23.94ktoe
n.a.ktoe
n.a.ktoe
n.a.ktoe
n.a.ktoe
n.a.ktoe
n.a.ktoe
Lithuania
0m3
n.a.kt
n.a.kt
0m3
0m3
0m3
0m3
0ktoe
n.a.ktoe
n.a.ktoe
Luxem
bourgn.a.
ton25000
ton29000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton15.9
ktoe23
ktoe27
ktoeH
ungary3829000
ton3600000
tonn.a.
ton16000
ton0
ton48000
ton3797000
tonn.a.
PJ/yearn.a.
PJ/yearn.a.
PJ/yearM
alta175000
ton169000
ton173500
tonn.a.
tonn.a.
ton1980
ton173020
ton0
ktoen.a.
ktoen.a.
ktoeN
etherlands7095
ktns11345
aktns
13764b
ktns0
ktns0
ktns0
ktns7095
ktns1354
ktoe2198
cktoe
2678d
ktoeA
ustria165000
ktoe370000
ktoe570000
ktoen.a.
ktoen.a.
ktoen.a.
ktoe165000
ktoe52
ktoe100
ktoe150
ktoePoland
388ton
4984M
g7500
Mg
n.a.ton
n.a.ton
n.a.ton
388ton
66ktoe
1086ktoe
1638ktoe
Portugal0
ton215628
ton313179
ton0
ton0
ton0
ton0
ton0
ktoe119
ktoe172
ktoeR
omania
5470000ton
n.a.ton
n.a.ton
0ton
0ton
0ton
0ton
1391ktoe
n.a.ktoe
n.a.ktoe
Slovenia6618
ton0
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton6618
ton0.1
ktoen.a.
ktoen.a.
ktoeSlovakia
n.a.ton
208000ton
308000ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
10ktoe
52ktoe
77ktoe
Finlandn.a.
tonn.a.
tonn.a.
ton0
ton0
ton0
tonn.a.
ton137.4
ktoe160
ktoe190
ktoeSw
eden2068
ktdm2140
ktdm2782
ktdm35
ktdm90
ktdm0
ktdm2193
ktdm764
ktoe763
ktoe985
ktoeU
nitedK
ingdom2011267
ton9055000
ton12945000
ton0
tonn.a.
tonn.a.
ton2011267
ton2196
ktoen.a.
ktoen.a.
ktoe
AllM
emberStates
1857e
kt3351
fkt
4476g
kt153
hkt
0i
kt0j
kt2010
kkt
9570l
ktoe11395
mktoe
15557n
ktoe
Various
countrieshave
more
detailreportedon
biomass
supplyin
theintroduction
chapterofthisreport.See
Sections1.5
and1.8
inthe
main
reportavailablefrom
ww
w.ecn.nl/nreap.
The
Netherlands
applythe
unit‘ktonns’(w
etbase)inthe
NR
EA
P,which
hasbeen
abbreviatedin
thistable
as‘ktns’.
Sweden
appliesthe
unit‘ktondry
matter’in
theN
RE
AP,w
hichhas
beenabbreviated
inthis
tableas
‘ktdm’.
aFor
theN
etherlandsa
datarangehas
beenreported
here:10570
to12119
ktns.T
hetable
mentions
the(calculated)
averagevalue.
bFor
theN
etherlandsa
datarangehas
beenreported
here:12344
to15183
ktns.T
hetable
mentions
the(calculated)
averagevalue.
cFor
theN
etherlandsa
datarangehas
beenreported
here:2041to
2354ktoe.T
hetable
mentions
the(calculated)average
value.d
FortheN
etherlandsa
datarangehas
beenreported
here:2391to
2965ktoe.T
hetable
mentions
the(calculated)average
value.e
Notconsidered
inthe
EU
-27sum
inthe
‘amountofdom
esticresource’forthe
year2006are
thefollow
ingcountries:B
ulgaria(369992
t);Germ
any(4321000
ton);Ireland(27473
ton);Greece
(79038904ton);Spain
(4924307ton);France
(8600000ton);Italy
(2937500ton);C
yprus(1245
ton);Latvia
(94ktoe);H
ungary(3829000
ton);Malta
(175000ton);N
etherlands(7095
ktns);Austria
(165000ktoe);Poland
(388ton);R
omania
(5470000ton);Slovenia
(6618ton);Sw
eden(2068
ktdm);U
nitedK
ingdom(2011267
ton)f
Notconsidered
inthe
EU
-27sum
inthe
‘amountofdom
esticresource’forthe
year2015are
thefollow
ingcountries:G
ermany
(8374000ton);Ireland
(788870ton);G
reece(60000000
ton);Spain(9698185
ton);Italy(3216000
ton);Luxem
bourg(25000
ton);Hungary
(3600000ton);M
alta(169000
ton);Netherlands
(10570to
12119ktns);A
ustria(370000
ktoe);Poland(4984
Mg);Portugal(215628
ton);Slovakia(208000
ton);Sweden
(2140ktdm
);United
Kingdom
(9055000ton)
gN
otconsideredin
theE
U-27
sumin
the‘am
ountofdom
esticresource’
forthe
year2020
arethe
following
countries:G
ermany
(8088000ton);
Ireland(1457532
ton);G
reece(60000000
ton);Spain
(12080478ton);
Italy(8030000
ton);L
uxembourg
(29000ton);
Malta
(173500ton);
Netherlands
(12344to
15183ktns);A
ustria(570000
ktoe);Poland(7500
Mg);Portugal(313179
ton);Slovakia(308000
ton);Sweden
(2782ktdm
);United
Kingdom
(12945000ton)
hN
otconsideredin
theE
U-27
sumin
the‘im
ported(eu)’forthe
year2006are
thefollow
ingcountries:L
atvia(24
ktoe);Hungary
(16000ton);Sw
eden(35
ktdm);
iN
otconsideredin
theE
U-27
sumin
the‘im
ported(non-eu)’forthe
year2006are
thefollow
ingcountries:Sw
eden(90
ktdm);
jN
otconsideredin
theE
U-27
sumin
the‘exported
(eu/non-eu)’fortheyear2006
arethe
following
countries:Hungary
(48000ton);M
alta(1980
ton);k
Not
consideredin
theE
U-27
sumin
the‘net
amount’
forthe
year2006
arethe
following
countries:B
ulgaria(369992
t);G
ermany
(4012000ton);
Greece
(79038904ton);
Spain(4669907
ton);France
(8600000ton);
Cyprus
(1245ton);
Hungary
(3797000ton);
Malta
(173020ton);
Netherlands
(7095ktns);A
ustria(165000
ktoe);Poland(388
ton);Slovenia(6618
ton);Sweden
(2193ktdm
);United
Kingdom
(2011267ton)
lN
otconsideredin
theE
U-27
sumin
the‘prim
aryenergy
production’fortheyear2006
arethe
following
countries:Denm
ark(2152000
ton);
58 ECN-E--10-069
28 NOV 2011 Biomass supply from waste (municipal) [various units]
Tabl
e64
:Bio
mas
ssu
pply
from
was
te(m
unic
ipal
)for
the
year
s20
06(i
nclu
ding
impo
rtan
dex
port
),20
15an
d20
20.
Am
ount
ofdo
mes
ticre
sour
ceIm
port
ed(E
U)
Impo
rted
(non
-EU
)E
xpor
ted
(EU
/non
-EU
)N
etam
ount
Prim
ary
ener
gypr
oduc
tion
2006
2015
2020
2006
2006
2006
2006
2006
2015
Bel
gium
1528
.5kt
1751
.6kt
2263
.7kt
152.
9kt
0kt
0kt
1681
.3kt
232.
51kt
oe33
4.7
ktoe
290.
8kt
oeB
ulga
ria
0t
400
kt55
0kt
0t
0t
0t
0t
0kt
oe80
ktoe
110
ktoe
Cze
chR
epub
lic23
5to
n38
2to
n66
3to
n0
ton
0to
n0
ton
235
ton
54kt
oe17
ktoe
166
ktoe
Den
mar
k21
5200
0to
n21
5200
0to
n21
5200
0to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n21
5200
0to
n61
1kt
oe68
3kt
oeG
erm
any
3457
000
ton
5537
000
ton
4327
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
3457
000
ton
477
ktoe
764
ktoe
597
ktoe
Est
onia
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Irel
and
0to
n73
0000
ton
1359
416
ton
0to
n0
ton
0to
n0
ton
n.a.
ktoe
220
ktoe
410
ktoe
Gre
ece
5800
000
ton
6000
0000
ton
6000
0000
ton
n.a.
ton
n.a.
ton
n.a.
ton
5547
6426
ton
23.3
ktoe
25kt
oe25
ktoe
Spai
n46
5347
1to
n63
1042
2to
n66
9351
5to
n0
ton
0to
n0
ton
4653
471
ton
366.
9kt
oe53
2.3
ktoe
726
ktoe
Fran
ce66
2200
0to
n55
0000
0ato
n55
0000
0bto
nn.
a.to
nn.
a.to
nn.
a.to
n66
2200
0to
n12
91kt
oe13
36c
ktoe
1336
dkt
oeIt
aly
2437
500
ton
2610
000
ton
6520
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
561
ktoe
720
ktoe
1800
ktoe
Cyp
rus
n.a.
ton
8000
eto
n12
500f
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
4gkt
oe6h
ktoe
Lat
via
79.6
ktoe
n.a.
ton
n.a.
ton
17.6
4kt
oen.
a.kt
oen.
a.kt
oe14
20.4
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Lith
uani
an.
a.m3
n.a.
ktn.
a.kt
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
ktoe
55kt
oe70
ktoe
Lux
embo
urg
5290
0to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n52
900
ton
14.8
ktoe
n.a.
ktoe
n.a.
ktoe
Hun
gary
1969
000
ton
2100
000
ton
2100
000
ton
0to
n0
ton
0to
n19
6900
0to
nn.
a.PJ
/yea
rn.
a.PJ
/yea
rn.
a.PJ
/yea
rM
alta
1670
00to
n16
0000
ton
1640
00to
nn.
a.to
nn.
a.to
n19
80to
n16
5020
ton
0kt
oe25
.5kt
oe25
.08
ktoe
Net
herl
ands
100
ktns
2437
jkt
ns36
79k
ktns
0kt
ns0
ktns
0kt
ns10
0kt
ns67
ktoe
695l
ktoe
1017
mkt
oeA
ustr
ia11
5000
ktoe
2400
00kt
oe36
0000
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
1150
00kt
oe40
ktoe
70kt
oe10
0kt
oePo
land
89M
g43
39M
g63
73M
gn.
a.M
gn.
a.M
gn.
a.M
g89
Mg
19kt
oe93
2kt
oe13
69kt
oePo
rtug
al53
7000
ton
2156
28N
m3
3131
79N
m3
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
99kt
oe11
9kt
oe17
2kt
oeR
oman
ia42
1000
0to
nn.
a.to
nn.
a.to
n0
ton
0to
n0
ton
0to
n10
95kt
oen.
a.kt
oen.
a.kt
oeSl
oven
ia63
66to
n0
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
6366
ton
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Slov
akia
n.a.
ton
2000
00to
n30
0000
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
8kt
oe50
ktoe
75kt
oeFi
nlan
dn.
a.to
nn.
a.to
nn.
a.to
n0
ton
0to
n0
ton
n.a.
ton
127.
4kt
oen.
a.kt
oen.
a.kt
oeSw
eden
918
ktdm
1353
ktdm
1768
ktdm
14kt
dm36
ktdm
0kt
dm96
8kt
dm35
7kt
oe49
3kt
oe63
7kt
oeU
nite
dK
ingd
om19
5446
7to
n23
2500
0to
n26
6000
0to
n0
ton
n.a.
ton
n.a.
ton
1954
467
ton
1977
ktoe
n.a.
ktoe
n.a.
ktoe
All
Mem
berS
tate
s15
29n
kt21
52o
kt28
14p
kt15
3qkt
0rkt
0skt
1681
tkt
6810
ukt
oe70
83v
ktoe
9614
wkt
oe
Var
ious
coun
trie
sha
vem
ore
deta
ilre
port
edon
biom
ass
supp
lyin
the
intr
oduc
tion
chap
tero
fthi
sre
port
.See
Sect
ions
1.5
and
1.8
inth
em
ain
repo
rtav
aila
ble
from
ww
w.e
cn.n
l/nre
ap.
The
Net
herl
ands
appl
yth
eun
it‘k
ton
ns’(
wet
base
)in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tns’
.Sw
eden
appl
ies
the
unit
‘kto
ndr
ym
atte
r’in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tdm
’.a
For
Fran
cea
data
rang
eha
sbe
enre
port
edhe
re:
5000
000
to60
0000
0to
n.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.b
For
Fran
cea
data
rang
eha
sbe
enre
port
edhe
re:
5000
000
to60
0000
0to
n.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.c
For
Fran
cea
data
rang
eha
sbe
enre
port
edhe
re:1
011
to16
61kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.d
ForF
ranc
ea
data
rang
eha
sbe
enre
port
edhe
re:1
011
to16
61kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.e
ForC
ypru
sa
data
rang
eha
sbe
enre
port
edhe
re:7
000
to90
00to
n.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.f
ForC
ypru
sa
data
rang
eha
sbe
enre
port
edhe
re:1
0000
to15
000
ton.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
gFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:3.
1to
4.0
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
hFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:4.5
to6.
7kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.i
Fort
heN
ethe
rlan
dsin
Tem
plat
eTa
ble
7ca
tego
ryC
1al
sosp
ecifi
esfo
r200
6an
addi
tiona
lam
ount
ofla
ndfil
lgas
(1.9
TJ)
whi
chha
sno
tbee
nco
vere
din
the
subt
otal
into
nns
(wet
basi
s).
jFo
rthe
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:220
4to
2669
ktns
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
kFo
rthe
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:325
3to
4105
ktns
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
lFo
rthe
Net
herl
ands
ada
tara
nge
has
been
repo
rted
here
:610
to78
0kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.m
Fort
heN
ethe
rlan
dsa
data
rang
eha
sbe
enre
port
edhe
re:8
61to
1173
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
nN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’
for
the
year
2006
are
the
follo
win
gco
untr
ies:
Cze
chR
epub
lic(2
35to
n);D
enm
ark
(215
2000
ton)
;Ger
man
y(3
4570
00to
n);G
reec
e(5
8000
00to
n);S
pain
(465
3471
ton)
;Fra
nce
(662
2000
ton)
;Ita
ly(2
4375
00to
n);
Lat
via
(80
ktoe
);L
uxem
bour
g(5
2900
ton)
;Hun
gary
(196
9000
ton)
;Mal
ta(1
6700
0to
n);N
ethe
rlan
ds(1
00kt
ns);
Aus
tria
(115
000
ktoe
);Po
land
(89
Mg)
;Por
tuga
l(53
7000
ton)
;Rom
ania
(421
0000
ton)
;Slo
veni
a(6
366
ton)
;Sw
eden
(918
ktdm
);U
nite
dK
ingd
om(1
9544
67to
n)o
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’fo
rth
eye
ar20
15ar
eth
efo
llow
ing
coun
trie
s:C
zech
Rep
ublic
(382
ton)
;D
enm
ark
(215
2000
ton)
;G
erm
any
(553
7000
ton)
;Ir
elan
d(7
3000
0to
n);
Gre
ece
(600
0000
0to
n);
Spai
n(6
3104
22to
n);
Fran
ce(5
0000
00to
6000
000
ton)
;Ita
ly(2
6100
00to
n);C
ypru
s(7
000
to90
00to
n);H
unga
ry(2
1000
00to
n);M
alta
(160
000
ton)
;Net
herl
ands
(220
4to
2669
ktns
);A
ustr
ia(2
4000
0kt
oe);
Pola
nd(4
339
Mg)
;Por
tuga
l(21
5628
Nm
3);S
lova
kia
(200
000
ton)
;Sw
eden
(135
3kt
dm);
Uni
ted
Kin
gdom
(232
5000
ton)
pN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’
for
the
year
2020
are
the
follo
win
gco
untr
ies:
Cze
chR
epub
lic(6
63to
n);D
enm
ark
(215
2000
ton)
;Ger
man
y(4
3270
00to
n);I
rela
nd(1
3594
16to
n);G
reec
e(6
0000
000
ton)
;Spa
in(6
6935
15to
n);F
ranc
e(5
0000
00to
6000
000
ton)
;Ita
ly(6
5200
00to
n);C
ypru
s(1
0000
to15
000
ton)
;Hun
gary
(210
0000
ton)
;Mal
ta(1
6400
0to
n);N
ethe
rlan
ds(3
253
to41
05kt
ns);
Aus
tria
(360
000
ktoe
);Po
land
(637
3M
g);P
ortu
gal(
3131
79N
m3)
;Slo
vaki
a(3
0000
0to
n);S
wed
en(1
768
ktdm
);U
nite
dK
ingd
om(2
6600
00to
n)q
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘i
mpo
rted
(eu)
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Lat
via
(18
ktoe
);Sw
eden
(14
ktdm
);r
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘i
mpo
rted
(non
-eu)
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Swed
en(3
6kt
dm);
sN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘exp
orte
d(e
u/no
n-eu
)’fo
rthe
year
2006
are
the
follo
win
gco
untr
ies:
Mal
ta(1
980
ton)
;t
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘n
etam
ount
’fo
rth
eye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:C
zech
Rep
ublic
(235
ton)
;Ger
man
y(3
4570
00to
n);G
reec
e(5
5476
426
ton)
;Spa
in(4
6534
71to
n);F
ranc
e(6
6220
00to
n);L
atvi
a(1
420
ktoe
);L
uxem
bour
g(5
2900
ton)
;Hun
gary
(196
9000
ton)
;Mal
ta(1
6502
0to
n);N
ethe
rlan
ds(1
00kt
ns);
Aus
tria
(115
000
ktoe
);Po
land
(89
Mg)
;Slo
veni
a(6
366
ton)
;Sw
eden
(968
ktdm
);U
nite
dK
ingd
om(1
9544
67to
n)u
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘p
rim
ary
ener
gypr
oduc
tion’
fort
heye
ar20
06is
:Den
mar
k(2
1520
00to
n);
ECN-E--10-069 59
Biomass supply from waste (industrial) [various units] 28 NOV 2011
Table65:B
iomass
supplyfrom
waste
(industrial)forthe
years2006
(includingim
portandexport),2015
and2020.
Am
ountofdomestic
resourceIm
ported(E
U)
Imported
(non-EU
)E
xported(E
U/non-E
U)
Netam
ountPrim
aryenergy
production
20062015
20202006
20062006
20062006
2015
Belgium
248.66kt
558.3kt
868kt
0kt
0kt
0kt
248.66kt
46.38ktoe
138.4ktoe
155.8ktoe
Bulgaria
369992t
375kt
500kt
0t
0t
0t
369992t
59ktoe
60ktoe
80ktoe
Czech
Republic
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
22ktoe
n.a.ktoe
17ktoe
Denm
arkn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ton0
ton0
ktoe0
ktoeG
ermany
864000ton
2837000ton
3761000ton
61000ton
n.a.ton
370000ton
555000ton
215ktoe
1099ktoe
1457ktoe
Estonia
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
n.a.ktoe
n.a.ktoe
Irelandn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoen.a.
ktoen.a.
ktoeG
reecen.a.
ton0
ton0
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoe0
ktoe0
ktoeSpain
16436ton
547763ton
626963ton
n.a.ton
n.a.ton
n.a.ton
16436ton
5.8ktoe
158ktoe
194ktoe
Francen.a.
ton1500000
ton2700000
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoe500
ktoe900
ktoeItaly
500000ton
606000ton
1510000ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
150ktoe
220ktoe
550ktoe
Cyprus
n.a.ton
800ton
1400ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
0.5ktoe
0.8ktoe
Latvia
14.6ktoe
n.a.ton
n.a.ton
6.3ktoe
n.a.ktoe
5.94ktoe
n.a.ktoe
n.a.ktoe
n.a.ktoe
n.a.ktoe
Lithuania
n.a.m3
n.a.kt
n.a.kt
n.a.m3
n.a.m3
n.a.m3
n.a.m3
n.a.ktoe
n.a.ktoe
n.a.ktoe
Luxem
bourgn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
tonn.a.
ktoen.a.
ktoen.a.
ktoeH
ungary1860000
ton1500000
tonn.a.
ton16000
ton0
ton48000
ton1828000
tonn.a.
PJ/yearn.a.
PJ/yearn.a.
PJ/yearM
alta8260
ton9000
ton9500
tonn.a.
tonn.a.
tonn.a.
ton8260
ton0
ktoen.a.
ktoen.a.
ktoeN
etherlands6365
ktns7860
aktns
8689b
ktns0
ktns0
ktns0
ktns6365
ktns1265
ktoe1466
cktoe
1612d
ktoeA
ustrian.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoen.a.
ktoePoland
84M
g645
Mg
1127M
gn.a.
Mg
n.a.M
gn.a.
Mg
84M
g5
ktoe154
ktoe269
ktoePortugal
n.a.ton
0N
m3
0N
m3
n.a.ton
n.a.ton
n.a.ton
n.a.ton
n.a.ktoe
0ktoe
0ktoe
Rom
ania910000
tonn.a.
tonn.a.
ton0
ton0
ton0
ton0
ton236
ktoen.a.
ktoen.a.
ktoeSlovenia
252ton
0ton
n.a.ton
n.a.ton
n.a.ton
n.a.ton
252ton
n.a.ktoe
n.a.ktoe
n.a.ktoe
Slovakia8000
ton8000
ton8000
tonn.a.
tonn.a.
ton1000
ton7000
ton2
ktoe2
ktoe2
ktoeFinland
n.a.ton
n.a.ton
n.a.ton
0ton
0ton
0ton
n.a.ton
n.a.ktoe
n.a.ktoe
n.a.ktoe
Sweden
873ktdm
787ktdm
1014ktdm
21ktdm
54ktdm
0ktdm
948ktdm
329ktoe
270ktoe
348ktoe
United
Kingdom
33440ton
6730000ton
10285000ton
0ton
n.a.ton
n.a.ton
33440ton
15ktoe
n.a.ktoe
n.a.ktoe
AllM
emberStates
249e
kt933
fkt
1368g
kt0h
kt0i
kt0j
kt249
kkt
2350l
ktoe4067
mktoe
5586n
ktoe
Various
countrieshave
more
detailreportedon
biomass
supplyin
theintroduction
chapterofthisreport.See
Sections1.5
and1.8
inthe
main
reportavailablefrom
ww
w.ecn.nl/nreap.
The
Netherlands
applythe
unit‘ktonns’(w
etbase)inthe
NR
EA
P,which
hasbeen
abbreviatedin
thistable
as‘ktns’.
Sweden
appliesthe
unit‘ktondry
matter’in
theN
RE
AP,w
hichhas
beenabbreviated
inthis
tableas
‘ktdm’.
aForthe
Netherlands
adatarange
hasbeen
reportedhere:7318
to8402
ktns.The
tablem
entionsthe
(calculated)averagevalue.
bForthe
Netherlands
adatarange
hasbeen
reportedhere:7695
to9682
ktns.The
tablem
entionsthe
(calculated)averagevalue.
cForthe
Netherlands
adatarange
hasbeen
reportedhere:1394
to1537
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
dForthe
Netherlands
adatarange
hasbeen
reportedhere:1481
to1743
ktoe.The
tablem
entionsthe
(calculated)averagevalue.
eN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2006
arethe
following
countries:B
ulgaria(369992
t);Germ
any(864000
ton);Spain(16436
ton);Italy(500000
ton);Latvia
(15ktoe);H
ungary(1860000
ton);Malta
(8260ton);N
etherlands(6365
ktns);Poland
(84M
g);Rom
ania(910000
ton);Slovenia(252
ton);Slovakia(8000
ton);Sweden
(873ktdm
);United
Kingdom
(33440ton)
fN
otconsideredin
theE
U-27
sumin
the‘am
ountofdomestic
resource’fortheyear2015
arethe
following
countries:Germ
any(2837000
ton);Spain(547763
ton);France(1500000
ton);Italy(606000
ton);Cyprus
(800ton);H
ungary(1500000
ton);Malta
(9000ton);N
etherlands(7318
to8402
ktns);Poland(645
Mg);Slovakia
(8000ton);Sw
eden(787
ktdm);U
nitedK
ingdom(6730000
ton)g
Notconsidered
inthe
EU
-27sum
inthe
‘amountof
domestic
resource’for
theyear
2020are
thefollow
ingcountries:
Germ
any(3761000
ton);Spain(626963
ton);France(2700000
ton);Italy(1510000
ton);Cyprus
(1400ton);M
alta(9500
ton);Netherlands
(7695to
9682ktns);Poland
(1127M
g);Slovakia(8000
ton);Sweden
(1014ktdm
);United
Kingdom
(10285000ton)
hN
otconsideredin
theE
U-27
sumin
the‘im
ported(eu)’forthe
year2006are
thefollow
ingcountries:G
ermany
(61000ton);L
atvia(6
ktoe);Hungary
(16000ton);Sw
eden(21
ktdm);
iN
otconsideredin
theE
U-27
sumin
the‘im
ported(non-eu)’forthe
year2006are
thefollow
ingcountries:Sw
eden(54
ktdm);
jN
otconsideredin
theE
U-27
sumin
the‘exported
(eu/non-eu)’fortheyear2006
arethe
following
countries:Germ
any(370000
ton);Latvia
(6ktoe);H
ungary(48000
ton);Slovakia(1000
ton);k
Notconsidered
inthe
EU
-27sum
inthe
‘netamount’
forthe
year2006
arethe
following
countries:B
ulgaria(369992
t);Germ
any(555000
ton);Spain(16436
ton);Hungary
(1828000ton);M
alta(8260
ton);Netherlands
(6365ktns);Poland
(84M
g);Slovenia(252
ton);Slovakia(7000
ton);Sweden
(948ktdm
);United
Kingdom
(33440ton)
60 ECN-E--10-069
28 NOV 2011 Biomass supply from waste (sewage sludge) [various units]
Tabl
e66
:Bio
mas
ssu
pply
from
was
te(s
ewag
esl
udge
)for
the
year
s20
06(i
nclu
ding
impo
rtan
dex
port
),20
15an
d20
20.
Am
ount
ofdo
mes
ticre
sour
ceIm
port
ed(E
U)
Impo
rted
(non
-EU
)E
xpor
ted
(EU
/non
-EU
)N
etam
ount
Prim
ary
ener
gypr
oduc
tion
2006
2015
2020
2006
2006
2006
2006
2006
2015
Bel
gium
80.1
7kt
91.1
kt94
kt0
kt0
kt0
kt80
.17
kt10
.09
ktoe
9.5
ktoe
10.4
ktoe
Bul
gari
a0
t17
5kt
200
kt0
t0
t0
t0
t0
ktoe
4kt
oe4
ktoe
Cze
chR
epub
licn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oen.
a.kt
oen.
a.kt
oeD
enm
ark
38M
m3
38M
m3
38M
m3
n.a.
Mm3
n.a.
Mm3
n.a.
Mm3
n.a.
Mm3
38M
m3
21kt
oe21
ktoe
Ger
man
y32
1700
0to
n34
3500
0to
n34
3500
0to
n22
0000
ton
n.a.
ton
2000
ton
3435
000
ton
263
ktoe
263
ktoe
263
ktoe
Est
onia
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
1.5
ton
n.a.
ktoe
n.a.
ktoe
2kt
oeIr
elan
d27
473
ton
5887
0to
n98
116
ton
0to
n0
ton
0to
n0
ton
n.a.
ktoe
15kt
oe25
ktoe
Gre
ece
2356
2478
ton
2600
0000
ton
2600
0000
ton
n.a.
ton
n.a.
ton
n.a.
ton
2356
2478
ton
9.6
ktoe
10.5
ktoe
10.5
ktoe
Spai
n25
4400
ton
2840
000
ton
4760
000
ton
n.a.
ton
n.a.
ton
n.a.
ton
2544
00to
n4.
9kt
oe52
.6kt
oe86
ktoe
Fran
ce10
0000
0to
n10
0000
0to
n10
0000
0to
nn.
a.to
nn.
a.to
nn.
a.to
n10
0000
0to
n54
ktoe
54kt
oe54
ktoe
Ital
yn.
a.to
n0
ton
0to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oe0
ktoe
0kt
oeC
ypru
s12
45to
n80
00a
ton
1650
0bto
nn.
a.to
nn.
a.to
nn.
a.to
n12
45to
n0.
5kt
oe3c
ktoe
5dkt
oeL
atvi
a23
.9kt
oen.
a.to
nn.
a.to
nn.
a.kt
oen.
a.kt
oen.
a.kt
oen.
a.kt
oen.
a.kt
oen.
a.kt
oen.
a.kt
oeL
ithua
nia
n.a.
m3
n.a.
ktn.
a.kt
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
m3
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
Lux
embo
urg
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
1.1
ktoe
n.a.
ktoe
n.a.
ktoe
Hun
gary
2610
00to
n49
9000
ton
n.a.
ton
0to
n0
ton
0to
n26
1000
ton
n.a.
PJ/y
ear
n.a.
PJ/y
ear
n.a.
PJ/y
ear
Mal
ta0
ton
5700
000
Nm
357
0000
0N
m3
0to
n0
ton
0to
n0
ton
0kt
oe1.
46kt
oe1.
46kt
oeN
ethe
rlan
ds63
0kt
ns10
48kt
ns13
96kt
ns0
ktns
0kt
ns0
ktns
630
ktns
22kt
oe37
ktoe
49kt
oeA
ustr
ia50
000
ktoe
1300
00kt
oe21
0000
ktoe
n.a.
ktoe
n.a.
ktoe
n.a.
ktoe
5000
0kt
oe12
ktoe
30kt
oe50
ktoe
Pola
nd10
64.7
Mg
s.m
340
Mg
6285
Mg
n.a.
Mg
s.m
n.a.
Mg
s.m
n.a.
Mg
s.m
1064
.7M
gs.
m20
3kt
oe65
ktoe
120
ktoe
Port
ugal
n.a.
ton
7975
3N
m3
1158
33N
m3
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ton
n.a.
ktoe
44kt
oe64
ktoe
Rom
ania
3500
00to
nn.
a.to
nn.
a.to
n0
ton
0to
n0
ton
0to
n60
ktoe
n.a.
ktoe
n.a.
ktoe
Slov
enia
n.a.
ton
0to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.kt
oen.
a.kt
oen.
a.kt
oeSl
ovak
ian.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
nn.
a.to
n10
ktoe
12kt
oe13
ktoe
Finl
and
n.a.
ton
n.a.
ton
n.a.
ton
0to
n0
ton
0to
nn.
a.to
n10
ktoe
n.a.
ktoe
n.a.
ktoe
Swed
en27
6kt
dm57
6kt
dm76
7kt
dm0
ktdm
0kt
dm0
ktdm
276
ktdm
78kt
oe16
3kt
oe21
7kt
oeU
nite
dK
ingd
om23
360
ton
1500
Mm
CH
04m
325
00M
mC
H04
m3
0to
nn.
a.to
nn.
a.to
n23
360
ton
204
ktoe
n.a.
ktoe
n.a.
ktoe
All
Mem
berS
tate
s80
ekt
266f
kt29
4gkt
0hkt
0ikt
0jkt
80k
kt94
2lkt
oe78
5mkt
oe99
5nkt
oe
Var
ious
coun
trie
sha
vem
ore
deta
ilre
port
edon
biom
ass
supp
lyin
the
intr
oduc
tion
chap
tero
fthi
sre
port
.See
Sect
ions
1.5
and
1.8
inth
em
ain
repo
rtav
aila
ble
from
ww
w.e
cn.n
l/nre
ap.
The
Net
herl
ands
appl
yth
eun
it‘k
ton
ns’(
wet
base
)in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tns’
.Sw
eden
appl
ies
the
unit
‘kto
ndr
ym
atte
r’in
the
NR
EA
P,w
hich
has
been
abbr
evia
ted
inth
ista
ble
as‘k
tdm
’.a
ForC
ypru
sa
data
rang
eha
sbe
enre
port
edhe
re:7
000
to90
00to
n.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.b
ForC
ypru
sa
data
rang
eha
sbe
enre
port
edhe
re:1
5000
to18
000
ton.
The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
cFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:2.
2to
2.8
ktoe
.The
tabl
em
entio
nsth
e(c
alcu
late
d)av
erag
eva
lue.
dFo
rCyp
rus
ada
tara
nge
has
been
repo
rted
here
:4.6
to5.
6kt
oe.T
heta
ble
men
tions
the
(cal
cula
ted)
aver
age
valu
e.e
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Den
mar
k(3
8m
illio
nm
3);G
erm
any
(321
7000
ton)
;Ire
land
(274
73to
n);G
reec
e(2
3562
478
ton)
;Spa
in(2
5440
0to
n);F
ranc
e(1
0000
00to
n);C
ypru
s(1
245
ton)
;Lat
via
(24
ktoe
);H
unga
ry(2
6100
0to
n);N
ethe
rlan
ds(6
30kt
ns);
Aus
tria
(500
00kt
oe);
Pola
nd(1
065
Mg
s.m
);R
oman
ia(3
5000
0to
n);S
wed
en(2
76kt
dm);
Uni
ted
Kin
gdom
(233
60to
n)f
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘a
mou
ntof
dom
estic
reso
urce
’for
the
year
2015
are
the
follo
win
gco
untr
ies:
Den
mar
k(3
8m
illio
nm
3);G
erm
any
(343
5000
ton)
;Ire
land
(588
70to
n);G
reec
e(2
6000
000
ton)
;Spa
in(2
8400
00to
n);F
ranc
e(1
0000
00to
n);C
ypru
s(7
000
to90
00to
n);
Hun
gary
(499
000
ton)
;Mal
ta(5
7000
00N
m3)
;Net
herl
ands
(104
8kt
ns);
Aus
tria
(130
000
ktoe
);Po
land
(340
Mg)
;Por
tuga
l(79
753
Nm
3);S
wed
en(5
76kt
dm);
Uni
ted
Kin
gdom
(150
0M
mC
H04
m3)
gN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘am
ount
ofdo
mes
ticre
sour
ce’f
orth
eye
ar20
20ar
eth
efo
llow
ing
coun
trie
s:D
enm
ark
(38
mill
ion
m3)
;Ger
man
y(3
4350
00to
n);I
rela
nd(9
8116
ton)
;Gre
ece
(260
0000
0to
n);S
pain
(476
0000
ton)
;Fra
nce
(100
0000
ton)
;Cyp
rus
(150
00to
1800
0to
n);
Mal
ta(5
7000
00N
m3)
;Net
herl
ands
(139
6kt
ns);
Aus
tria
(210
000
ktoe
);Po
land
(628
5M
g);P
ortu
gal(
1158
33N
m3)
;Sw
eden
(767
ktdm
);U
nite
dK
ingd
om(2
500
Mm
CH
04m
3)h
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘i
mpo
rted
(eu)
’for
the
year
2006
are
the
follo
win
gco
untr
ies:
Ger
man
y(2
2000
0to
n);
iN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘im
port
ed(n
on-e
u)’f
orth
eye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:j
Not
cons
ider
edin
the
EU
-27
sum
inth
e‘e
xpor
ted
(eu/
non-
eu)’
fort
heye
ar20
06ar
eth
efo
llow
ing
coun
trie
s:G
erm
any
(200
0to
n);
kN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘net
amou
nt’
for
the
year
2006
are
the
follo
win
gco
untr
ies:
Ger
man
y(3
4350
00to
n);E
ston
ia(2
ton)
;Gre
ece
(235
6247
8to
n);S
pain
(254
400
ton)
;Fra
nce
(100
0000
ton)
;Cyp
rus
(124
5to
n);H
unga
ry(2
6100
0to
n);N
ethe
rlan
ds(6
30kt
ns);
Aus
tria
(500
00kt
oe);
Pola
nd(1
065
Mg
s.m
);Sw
eden
(276
ktdm
);U
nite
dK
ingd
om(2
3360
ton)
lN
otco
nsid
ered
inth
eE
U-2
7su
min
the
‘pri
mar
yen
ergy
prod
uctio
n’fo
rthe
year
2006
is:D
enm
ark
(38
mill
ion
m3)
;
ECN-E--10-069 61
Land use for energy crops [ha] 28 NOV 2011
Table 67: Land used in the year 2006 [ha] for short rotation trees (willows, poplars) and forother energy crops such as grasses (reed canary grass, switch grass, Miscanthus) andsorghum. In line with NREAP Template Table 8 data are only available for the year2006, not for other years
Land for short rotation trees Land for other energy crops UnitBelgium 0 0 haBulgaria 0 0 haCzech Republic n.a. n.a. haDenmark 1000 50 haGermany 1200 1100 haEstonia n.a. n.a. haIreland 63 617 haGreece 0 0 haSpain n.a. n.a. haFrance 192.3 0 haItaly 5105 n.a. haCyprus n.a. n.a. haLatvia n.a. >200a haLithuania 300 0 haLuxembourg 0 0 haHungary 401 2122 haMalta 0 0 haNetherlands 0 10000 haAustria 800 33000 haPoland 6565.8 250.2 haPortugal 0 236 haRomania 20 n.a. haSlovenia 0 2980 haSlovakia 150 200 haFinland n.a. n.a. haSweden 14000 <1000b haUnited Kingdom 4196 5316 ha
All Member States (total) 33993.1 57071.2a,b haa For calculating the ‘total land use for other energy crops’ for Latvia a value of 200 [ha] has been assumed.b For calculating the ‘total land use for other energy crops’ for Sweden a value of 1000 [ha] has been assumed.
62 ECN-E--10-069
RES excess and deficit for flexible mechanisms
ECN-E--10-069 63
Estimated excess in NREAP [ktoe] 28 NOV 2011
Table68:E
stimated
excessin
NR
EA
P[ktoe]
foruse
with
flexiblem
echanisms
20102011
20122013
20142015
20162017
20182019
2020B
elgiumn.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
Bulgaria
6180
168202
353386
481420
471411
341C
zechR
epublicn.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
Denm
arkn.a.
694834
11231106
833928
552619
n.a.63
Germ
anyn.a.
57037065
55077105
47616453
41305976
n.a.3065
Estonia
n.a.50
8597
10974
8349
6979
-1Ireland
0168
168233
233211
211136
1360
0G
reece257
408513
686812
856842
737743
683529
Spainn.a.
29863596
30564163
33794296
31804166
n.a.2649
France0
00
00
00
00
00
Italy2839
20772157
22202143
18431511
1092465
00
Cyprus
3633
3934
4630
4257
3421
0L
atvian.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
Lithuania
036
37123
126178
182231
2350
61L
uxembourg
00
00
00
00
00
0H
ungary0
547283
323267
280274
516464
679325
Malta
n.a.n.a.
2.06n.a.
7.64n.a.
8.37n.a.
16.13n.a.
1.07N
etherlands0
00
00
00
00
00
Austria
00
00
00
00
00
0Poland
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.Portugal
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.R
omania
00
00
00
00
00
0Slovenia
00
00
00
00
00
0Slovakia
n.a.181
240228
313305
364269
349190
143Finland
00
00
00
00
00
0Sw
eden162
194227
259291
324356
389421
453486
United
Kingdom
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.0
n.a.n.a.
n.a.A
llMem
berStates(total)
335513157
15414.0614091
17074.6413460
16031.3711758
14164.132516
7663.07
64 ECN-E--10-069
28 NOV 2011 Estimated deficit in NREAP [ktoe]
Tabl
e69
:Est
imat
edde
ficit
inN
RE
AP
[kto
e]fo
rus
ew
ithfle
xibl
em
echa
nism
s
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
Bel
gium
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Bul
gari
a0
00
00
00
00
00
Cze
chR
epub
licn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.D
enm
ark
n.a.
00
00
00
00
n.a.
0G
erm
any
n.a.
00
00
00
00
n.a.
0E
ston
ian.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.Ir
elan
d0
00
00
00
00
00
Gre
ece
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Spai
nn.
a.0
00
00
00
0n.
a.0
Fran
ce0
00
00
00
00
00
Ital
y0
00
00
00
00
284
1127
Cyp
rus
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Lat
via
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Lith
uani
a0
00
00
00
00
00
Lux
embo
urg
045
2338
1045
2275
3966
93H
unga
ry0
00
00
00
00
00
Mal
tan.
a.n.
a.0
n.a.
0n.
a.0
n.a.
0n.
a.0
Net
herl
ands
00
00
00
00
00
0A
ustr
ia0
00
00
00
00
00
Pola
ndn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.Po
rtug
aln.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.R
oman
ia0
00
00
00
00
00
Slov
enia
00
00
00
00
00
0Sl
ovak
ian.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.Fi
nlan
d0
00
00
00
00
00
Swed
enn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.U
nite
dK
ingd
omn.
a.10
0n.
a.20
0n.
a.30
0n.
a.n.
a.n.
a.n.
a.0
All
Mem
berS
tate
s(t
otal
)0
145
2323
810
345
2275
3935
012
20
ECN-E--10-069 65
Hydropower electric capacity (breakdown) [MW] 28 NOV 2011
Table70:P
rojectedhydropow
erelectric
capacity[M
W]
forthe
period2005
-2020,brokendow
ninto
capacityranges
andpum
pedstorage
capacityH
ydropower<
1M
WH
ydropower1
MW
–10
MW
Hydropow
er>10M
WPum
pedstorage
hydropower
Totalhydropower
20052010
20152020
20052010
20152020
20052010
20152020
20052010
20152020
20052010
20152020
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
Belgium
7.27.4
89.3
50.252.1
55.865
50.852.7
56.465.7
00
00
108.2112.3
120.1140
Bulgaria
2949
4850
170214
250272
18521852
19322102
864864
864864
29152979
30943288
Czech
Republic
123162
191194
154142
147147
743743
743743
n.a.n.a.
n.a.n.a.
10201047
10991125
Denm
ark0
00
010
1010
100
00
00
00
010
1010
10G
ermany
641507
534564
1073987
10121043
26152558
26202702
40126494
64947900
43294052
41654309
Estonia
46
77
11
11
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.300
57
88
Ireland18
1818
1820
2020
20196
196196
196292
292292
292234
234234
234G
reece26
2934
3963
154185
2163018
30543396
4276700
700700
15803107
32373615
4531Spain
239242
253268
15341603
17641917
1644716842
1803220177
27272546
37005700
1822018687
2004922362
France433
441462
4831618
16471727
180718995
1933320269
212064303
48005800
680025349
2580027050
28300Italy
391444
547650
19472250
27503250
1312813886
1389313900
13342399
24992600
1546616580
1719017800
Cyprus
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
Latvia
2424
2527
11
11
15111511
15241522
n.a.n.a.
n.a.n.a.
15361536
15501550
Lithuania
n.a.n.a.
n.a.n.a.
2726
3240
101101
101101
760760
760760
888887
893901
Luxem
bourg2
22
332
3636
410
00
01100
11001300
130034
3838
44H
ungaryn.a.
34
6n.a.
99
22n.a.
3939
39n.a.
00
0n.a.
5152
66M
altan.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.N
etherlands0
02
22
221
2135
4545
450
00
037
4768
68A
ustria308
455465
497692
726743
7946907
70537215
77073929
42854285
42857907
82358423
8997Poland
72102
122142
174178
208238
669672
672772
00
00
915952
10021152
Portugaln.a.
n.a.n.a.
n.a.323
410550
7504493
45246467
8798537
10362454
43024816
49347017
9548R
omania
6363
90109
262324
547620
59646026
66507000
00
00
62896413
72877729
Slovenia108
118120
12037
3752
57836
9161021
11760
00
0981
10711193
1354Slovakia
1625
4060
4655
82122
15351542
16101630
00
00
15971622
17321812
Finland30
3030
30280
280280
2802730
27502750
27900
00
03040
30503050
3100Sw
eden140
140140
140765
765765
76515397
1540215407
1541243
4343
4316302
1630716312
16317U
nitedK
ingdom56
n.a.n.a.
n.a.102
n.a.n.a.
n.a.4131
n.a.n.a.
n.a.2788
28002800
28004289
45004710
4920
AllM
emberStates
(total)2730.2
2867.43142
3418.39383.2
9929.111247.8
12499101353.8
99097.7104638.4
112359.723389
2811931991
39526119394.2
122388.3129961.1
139665
SeeTable
71on
page67
forcorrespondinghydropow
erelectricityproduction
data.C
ountryinform
ation:forvariouscountries,Totalhydropow
ercapacity
inthe
NR
EA
Pexcludes
pumped
storagecapacity.T
hisis
thecase
forGerm
any,Greece,Spain,Italy,L
uxembourg,A
ustria,Potugaland
Sweden.
Abreakdow
nin
capacityranges
hasnotbeen
providedfor
Bulgaria,the
Netherlands
andthe
United
Kingdom
.T
herefore,thesum
ofallcategories
islow
erthan
thevalue
forA
llMem
berStates
(total).
66 ECN-E--10-069
28 NOV 2011 Hydropower electricity generation (breakdown) [GWh]
Tabl
e71
:Pro
ject
edhy
drop
ower
elec
tric
ityge
nera
tion
[GW
h]fo
rth
epe
riod
2005
-202
0,br
oken
dow
nin
toca
paci
tyra
nges
and
pum
ped
stor
age
capa
city
Hyd
ropo
wer
<1M
WH
ydro
pow
er1M
W–
10M
WH
ydro
pow
er>1
0MW
Pum
ped
stor
age
hydr
opow
erTo
talh
ydro
pow
er
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
Bel
gium
2021
2326
188
195
211
237
141
146
158
178
00
00
350
362
391
440
Bul
gari
a75
127
125
130
400
503
588
639
2593
2593
2705
2943
00
00
3068
3223
3417
3712
Cze
chR
epub
lic34
357
567
072
472
847
449
049
013
0910
6010
6010
60n.
a.n.
a.n.
a.n.
a.23
8021
0922
2022
74D
enm
ark
00
00
2331
3131
00
00
00
00
2331
3131
Ger
man
y31
5723
0024
5025
5035
6040
5042
5045
0012
971
1165
012
300
1295
077
8669
8969
8983
9519
687
1800
019
000
2000
0E
ston
ia14
2024
246
66
6n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.20
2630
30Ir
elan
dn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.76
070
171
470
1G
reec
e10
611
213
115
021
859
371
383
346
9342
8348
4055
9359
377
677
417
0350
1749
8856
8465
76Sp
ain
893
831
715
803
5719
4973
4617
5477
2889
128
813
3139
933
314
5153
3640
6577
8023
3550
334
617
3673
239
593
Fran
ce17
9616
9417
2717
5961
1157
6658
7859
9062
332
6156
362
758
6395
347
0551
3061
9972
6870
240
6902
470
363
7170
3It
aly
1851
1737
2009
2281
7391
7459
8627
9796
3452
532
946
3143
429
923
1268
2739
2734
2730
4376
842
141
4207
042
000
Cyp
rus
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Lat
via
5959
6367
33
33
2880
2844
2899
2981
n.a.
n.a.
n.a.
n.a.
2942
2906
2965
3051
Lith
uani
an.
a.n.
a.n.
a.n.
a.66
7993
117
385
353
353
353
370
700
700
700
451
432
446
470
Lux
embo
urg
56
67
9310
010
011
70
00
078
578
592
892
898
107
107
124
Hun
gary
n.a.
58
12n.
a.30
3067
n.a.
158
158
158
n.a.
00
0n.
a.19
419
623
8M
alta
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Net
herl
ands
00
55
55
5757
9512
212
212
20
00
010
012
718
418
4A
ustr
ia14
4821
2921
7823
2632
4734
0034
7737
1532
430
3301
333
768
3607
127
3827
3227
3227
3237
125
3854
239
423
4211
2Po
land
358
357
427
497
504
534
624
714
1339
1388
1388
1758
00
00
2201
2279
2439
2969
Port
ugal
n.a.
n.a.
n.a.
n.a.
381
827
1108
1511
4737
8916
9993
1256
238
70
00
5118
9742
1110
114
074
Rom
ania
6195
135
164
538
624
1054
1195
1549
315
848
1749
018
410
00
00
1609
116
567
1867
919
768
Slov
enia
451
262
270
270
155
192
247
270
3493
3744
4042
4581
00
00
4099
4198
4559
5121
Slov
akia
8075
119
179
198
164
244
364
4360
4595
4798
4857
00
00
4638
4834
5161
5400
Finl
and
140
150
150
150
1260
1290
1290
1310
1251
012
780
1278
012
960
00
00
1391
014
210
1421
014
410
Swed
en43
043
043
043
028
3528
3528
3528
3565
155
6501
564
875
6473
571
7171
7168
421
6821
068
140
6800
0U
nite
dK
ingd
om44
n.a.
n.a.
n.a.
399
n.a.
n.a.
n.a.
4478
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
4921
5100
5730
6360
All
Mem
berS
tate
s(t
otal
)11
331
1098
511
665
1255
434
028
3413
436
573
4027
429
4810
2918
3029
9320
3094
6223
856
2356
227
704
3255
034
0931
3426
7035
3992
3693
41
See
Tabl
e70
onpa
ge66
forc
orre
spon
ding
hydr
opow
erca
paci
tyda
ta.
ECN-E--10-069 67
Geothermal electric capacity [MW] 28 NOV 2011
Table 72: Projected geothermal electric capacity [MW] for the period 2005 - 20202005 2010 2015 2020 2020
[MW] [MW] [MW] [MW] [%]
Belgium 0 0 0 4 0Bulgaria 0 0 0 0 0Czech Republic 0 0 4 4 0Denmark 0 0 0 0 0Germany 0 10 79 298 18Estonia n.a. n.a. n.a. n.a. n.a.Ireland 0 0 0 0 0Greece 0 0 20 120 7Spain 0 0 0 50 3France 15 26 53 80 5Italy 711 754 837 920 57Cyprus n.a. n.a. n.a. n.a. n.a.Latvia n.a. n.a. n.a. n.a. n.a.Lithuania 0 0 0 0 0Luxembourg 0 0 0 0 0Hungary n.a. 0 4 57 4Malta n.a. n.a. n.a. n.a. n.a.Netherlands 0 0 0 0 0Austria 1 1 1 1 0Poland 0 0 0 0 0Portugal 14 25 40 75 5Romania 0 0 0 0 0Slovenia 0 0 0 0 0Slovakia 0 0 4 4 0Finland 0 0 0 0 0Sweden n.a. n.a. n.a. n.a. n.a.United Kingdom n.a. n.a. n.a. n.a. n.a.
All Member States (total) 741 816 1042 1613 100
See Table 73 on page 69 for corresponding geothermal electricity production data.
68 ECN-E--10-069
28 NOV 2011 Geothermal electricity generation [GWh]
Table 73: Projected geothermal electricity generation [GWh] for the period 2005 - 20202005 2010 2015 2020 2020
[GWh] [GWh] [GWh] [GWh] [%]
Belgium 0 0 0 29 0Bulgaria 0 0 0 0 0Czech Republic 0 0 18 18 0Denmark 0 0 0 0 0Germany 0 27 377 1654 15Estonia n.a. n.a. n.a. n.a. n.a.Ireland 0 0 0 0 0Greece n.a. 0 123 736 7Spain 0 0 0 300 3France 95 153 314 475 4Italy 5325 5632 6191 6750 62Cyprus n.a. n.a. n.a. n.a. n.a.Latvia n.a. n.a. n.a. n.a. n.a.Lithuania 0 0 0 0 0Luxembourg 0 0 0 0 0Hungary n.a. 0 29 410 4Malta n.a. n.a. n.a. n.a. n.a.Netherlands 0 0 0 0 0Austria 2 2 2 2 0Poland 0 0 0 0 0Portugal 55 163 260 488 4Romania 0 0 0 0 0Slovenia 0 0 0 0 0Slovakia 0 0 28 30 0Finland 0 0 0 0 0Sweden n.a. n.a. n.a. n.a. n.a.United Kingdom n.a. n.a. n.a. n.a. n.a.
All Member States (total) 5477 5977 7342 10892 100
See Table 72 on page 68 for corresponding geothermal electricity capacity data.
ECN-E--10-069 69
Solar electric capacity (breakdown) [MW] 28 NOV 2011
Table74:P
rojectedsolar
electriccapacity
[MW
]for
theperiod
2005-2020,broken
down
intophotovoltaic
(PV
)andconcentrated
solarpow
er(C
SP)
SolarphotovoltaicC
oncentratedsolarpow
erTotalsolarelectricity
20052010
20152020
20052010
20152020
20052010
20152020
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
Belgium
2350
7131340
00
00
2350
7131340
Bulgaria
09
251303
00
00
09
251303
Czech
Republic
11650
16801695
n.a.n.a.
n.a.n.a.
11650
16801695
Denm
ark3
34
60
00
03
34
6G
ermany
198015784
3427951753
00
00
198015784
3427951753
Estonia
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
Irelandn.a.
n.a.0
0n.a.
n.a.0
00
00
0G
reece1
1841270
2200n.a.
030
2501
1841300
2450Spain
604021
59188367
0632
30485079
604653
896613445
France25
5042151
48600
0203
54025
5042353
5400Italy
342500
55008000
05
62600
342505
55628600
Cyprus
06
37192
00
5075
06
87267
Latvia
n.a.n.a.
12
n.a.n.a.
n.a.n.a.
00
12
Lithuania
01
1010
00
00
01
1010
Luxem
bourg24
2788
1130
00
024
2788
113H
ungaryn.a.
019
63n.a.
00
0n.a.
019
63M
altan.a.
427
28n.a.
n.a.n.a.
n.a.0
427
28N
etherlands51
92317
7220
00
051
92317
722A
ustria22
90179
3220
00
022
90179
322Poland
01
23
00
00
01
23
Portugal3
156540
10000
0180
5003
156720
1500R
omania
00
148260
00
00
00
148260
Slovenia0
1237
1390
00
00
1237
139Slovakia
060
160300
00
00
060
160300
Finland0
00
100
00
00
00
10Sw
eden4
57
8n.a.
n.a.n.a.
n.a.4
57
8U
nitedK
ingdom11
501070
2680n.a.
00
011
501070
2680
AllM
emberStates
(total)2221
2550954408
843760
6373573
70442221
2614657980
91419
SeeTable
75on
page71
forcorrespondingsolarelectricity
productiondata.
70 ECN-E--10-069
28 NOV 2011 Solar electricity generation (breakdown) [GWh]
Tabl
e75
:Pro
ject
edso
lar
elec
tric
ityge
nera
tion
[GW
h]fo
rth
epe
riod
2005
-202
0,br
oken
dow
nin
toph
otov
olta
ic(P
V)a
ndco
ncen
trat
edso
lar
pow
er(C
SP)
Sola
rpho
tovo
ltaic
Con
cent
rate
dso
larp
ower
Tota
lsol
arel
ectr
icity
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
Bel
gium
130
461
011
390
00
01
304
610
1139
Bul
gari
a0
1234
343
50
00
00
1234
343
5C
zech
Rep
ublic
057
817
0817
26n.
a.n.
a.n.
a.n.
a.0
578
1708
1726
Den
mar
k2
23
40
00
02
23
4G
erm
any
1282
9499
2616
141
389
00
00
1282
9499
2616
141
389
Est
onia
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
Irel
and
n.a.
n.a.
00
n.a.
n.a.
00
00
00
Gre
ece
124
216
6828
91n.
a.0
8671
41
242
1754
3605
Spai
n41
6417
9872
1431
60
1144
7913
1535
341
7561
1778
529
669
Fran
ce22
613
2617
5913
00
365
972
2261
329
8168
85It
aly
3119
6761
2296
500
917
017
0031
1976
6292
1135
0C
ypru
s0
659
309
00
149
224
06
208
533
Lat
via
n.a.
n.a.
14
n.a.
n.a.
n.a.
n.a.
00
14
Lith
uani
a0
013
150
00
00
013
15L
uxem
bour
g18
2065
840
00
018
2065
84H
unga
ryn.
a.2
2681
n.a.
00
0n.
a.2
2681
Mal
tan.
a.6
4143
n.a.
n.a.
n.a.
n.a.
06
4143
Net
herl
ands
4073
250
570
00
00
4073
250
570
Aus
tria
2185
170
306
00
00
2185
170
306
Pola
nd0
12
30
00
00
12
3Po
rtug
al3
230
797
1475
00
360
1000
323
011
5724
75R
oman
ia0
018
032
00
00
00
018
032
0Sl
oven
ia0
1237
139
00
00
012
3713
9Sl
ovak
ia0
3016
030
00
00
00
3016
030
0Fi
nlan
d0
00
00
00
00
00
0Sw
eden
01
34
n.a.
n.a.
n.a.
n.a.
01
34
Uni
ted
Kin
gdom
840
890
2240
n.a.
00
08
4089
022
40
All
Mem
berS
tate
s(t
otal
)14
7020
141
5179
883
356
011
5390
4319
963
1470
2129
460
840
1033
19
See
Tabl
e74
onpa
ge70
forc
orre
spon
ding
sola
rele
ctri
cca
paci
tyda
ta.
ECN-E--10-069 71
Tidal, wave and ocean energy electric capacity [MW] 28 NOV 2011
Table 76: Projected tidal, wave and ocean energy electric capacity [MW] for the period 2005 -2020
2005 2010 2015 2020 2020[MW] [MW] [MW] [MW] [%]
Belgium 0 0 0 0 0Bulgaria 0 0 0 0 0Czech Republic n.a. n.a. n.a. n.a. n.a.Denmark 0 0 0 0 0Germany 0 0 0 0 0Estonia n.a. n.a. n.a. n.a. n.a.Ireland 0 0 0 75 3Greece n.a. n.a. n.a. n.a. n.a.Spain 0 0 0 100 4France 240 240 302 380 17Italy 0 0 0 3 0Cyprus n.a. n.a. n.a. n.a. n.a.Latvia n.a. n.a. n.a. n.a. n.a.Lithuania 0 0 0 0 0Luxembourg 0 0 0 0 0Hungary n.a. 0 0 0 0Malta n.a. n.a. n.a. n.a. n.a.Netherlands 0 0 0 135 6Austria n.a. n.a. n.a. n.a. n.a.Poland 0 0 0 0 0Portugal 0 5 60 250 11Romania 0 0 0 0 0Slovenia 0 0 0 0 0Slovakia 0 0 0 0 0Finland 0 0 10 10 0Sweden n.a. n.a. n.a. n.a. n.a.United Kingdom n.a. 0 0 1300 58
All Member States (total) 240 245 372 2253 100
See Table 77 on page 73 for corresponding tidal, wave and ocean energy electricity production data.
72 ECN-E--10-069
28 NOV 2011 Tidal, wave and ocean energy generation [GWh]
Table 77: Projected tidal, wave and ocean energy electricity generation [GWh] for the period2005 - 2020
2005 2010 2015 2020 2020[GWh] [GWh] [GWh] [GWh] [%]
Belgium 0 0 0 0 0Bulgaria 0 0 0 0 0Czech Republic n.a. n.a. n.a. n.a. n.a.Denmark 0 0 0 0 0Germany 0 0 0 0 0Estonia n.a. n.a. n.a. n.a. n.a.Ireland 0 0 0 230 4Greece n.a. n.a. n.a. n.a. n.a.Spain 0 0 0 220 3France 535 500 789 1150 18Italy 0 0 1 5 0Cyprus n.a. n.a. n.a. n.a. n.a.Latvia n.a. n.a. n.a. n.a. n.a.Lithuania 0 0 0 0 0Luxembourg 0 0 0 0 0Hungary n.a. 0 0 0 0Malta n.a. n.a. n.a. n.a. n.a.Netherlands 0 0 0 514 8Austria n.a. n.a. n.a. n.a. n.a.Poland 0 0 0 0 0Portugal 0 1 75 437 7Romania 0 0 0 0 0Slovenia 0 0 0 0 0Slovakia 0 0 0 0 0Finland 0 0 0 0 0Sweden n.a. n.a. n.a. n.a. n.a.United Kingdom n.a. 0 0 3950 61
All Member States (total) 535 501 865 6506 100
See Table 76 on page 72 for corresponding tidal, wave and ocean energy capacity data.
ECN-E--10-069 73
Wind power electric capacity (breakdown) [MW] 28 NOV 2011
Table78:P
rojectedw
indpow
erelectric
capacity[M
W]
forthe
period2005
-2020,brokendow
ninto
onshoreand
offshorew
indO
nshorew
indO
ffshorew
indTotalw
indpow
er
20052010
20152020
20052010
20152020
20052010
20152020
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
Belgium
190684
7642320
049
12852000
190733
20494320
Bulgaria
8336
12741440
00
00
8336
12741440
Czech
Republic
22243
493743
n.a.n.a.
n.a.n.a.
22243
493743
Denm
ark2706
29232929
2621423
6611251
13393129
35844180
3960G
ermany
1841527526
3364735750
0150
300010000
1841527676
3664745750
Estonia
31147
400400
n.a.n.a.
n.a.250
31147
400650
Ireland469
20522899
409425
36252
555494
20883151
4649G
reece491
13274303
7200n.a.
n.a.n.a.
300491
13274303
7500Spain
991820155
2784735000
00
1503000
991820155
2799738000
France752
554210778
190000
02667
6000752
554213445
25000Italy
16395800
890012000
00
168680
16395800
906812680
Cyprus
082
180300
n.a.n.a.
n.a.n.a.
082
180300
Latvia
2628
104236
n.a.n.a.
n.a.180
2628
104416
Lithuania
1179
389500
00
00
1179
389500
Luxem
bourg35
35105
1310
00
035
35105
131H
ungaryn.a.
330577
750n.a.
00
0n.a.
330577
750M
altan.a.
07
15n.a.
00
950
07
110N
etherlands1224
19934400
60000
2281178
51781224
22215578
11178A
ustria694
10111951
25780
00
0694
10111951
2578Poland
1211100
33505600
00
0500
1211100
35406650
Portugal1063
42566100
68000
025
751063
42566125
6875R
omania
1560
32004000
00
00
1560
32004000
Slovenia0
260
1060
00
00
260
106Slovakia
55
300350
00
00
55
300350
Finland80
n.a.n.a.
16000
n.a.n.a.
90080
170670
2500Sw
eden513
17973081
436523
76129
182536
18733210
4547U
nitedK
ingdom1351
40408710
14890214
13905500
129901565
543014210
27880
AllM
emberStates
(total)39755
82153126747
168789685
259015605
4422440440
84913143212
213563
SeeTable
79on
page75
forcorrespondingw
indpow
erelectricityproduction
data.B
ecauseforFinland
andB
elgiumno
breakdown
intoonshore
andoffshore
wind
powerhas
beenspecified
after2005the
sumofthe
subcategoriesin
2010,2015and
2020is
lowerthan
thevalue
forAllM
ember
States(total).Poland
reportsm
icro-wind
separatelyfrom
onshorew
ind,which
resultsin
adifference
between
onshoreand
totalcapacity.
74 ECN-E--10-069
28 NOV 2011 Wind power electricity generation (breakdown) [GWh]
Tabl
e79
:Pro
ject
edw
ind
pow
erel
ectr
icity
gene
ratio
n[G
Wh]
for
the
peri
od20
05-2
020,
brok
endo
wn
into
onsh
ore
win
dan
dof
fsho
rew
ind
Ons
hore
win
dO
ffsh
ore
win
dTo
talw
ind
pow
er
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
Bel
gium
320
840
2100
4274
015
139
8462
0032
099
160
8410
474
Bul
gari
a5
605
2293
2592
00
00
560
522
9325
92C
zech
Rep
ublic
2145
497
514
96n.
a.n.
a.n.
a.n.
a.21
454
975
1496
Den
mar
k51
5861
2163
2263
9114
5624
8549
2053
2266
1486
0611
242
1171
3G
erm
any
2665
844
397
6199
072
664
027
180
0431
771
2665
844
668
6999
410
4435
Est
onia
5433
798
197
4n.
a.n.
a.n.
a.56
354
337
981
1537
Irel
and
n.a.
4701
7525
1022
8n.
a.11
681
417
4215
8848
1783
3911
970
Gre
ece
1267
3129
9674
1612
5n.
a.n.
a.n.
a.67
212
6731
2996
7416
797
Spai
n20
729
4097
856
786
7050
20
030
077
5320
729
4097
857
086
7825
4Fr
ance
1128
1163
822
634
3990
00
080
0018
000
1128
1163
830
634
5790
0It
aly
2558
8398
1319
918
000
00
453
2000
2558
8398
1365
220
000
Cyp
rus
031
300
499
n.a.
n.a.
n.a.
n.a.
031
300
499
Lat
via
4758
228
519
n.a.
n.a.
n.a.
391
4758
228
910
Lith
uani
a2
297
924
1250
00
00
229
792
412
50L
uxem
bour
g52
6019
223
90
00
052
6019
223
9H
unga
ryn.
a.69
213
7715
45n.
a.0
00
n.a.
692
1377
1545
Mal
tan.
a.0
1738
n.a.
00
216
00
1725
5N
ethe
rlan
ds20
6736
6795
0813
372
080
341
4719
036
2067
4470
1365
532
408
Aus
tria
1343
2034
3780
4811
00
00
1343
2034
3780
4811
Pola
nd13
623
1073
7013
160
00
015
0013
623
1075
4115
210
Port
ugal
1773
1021
413
420
1441
60
060
180
1773
1021
413
400
1459
6R
oman
ia0
460
6614
8400
00
00
046
066
1484
00Sl
oven
ia0
210
919
10
00
00
210
919
1Sl
ovak
ia7
748
056
00
00
07
748
056
0Fi
nlan
d15
0n.
a.n.
a.35
000
n.a.
n.a.
2500
150
360
1520
6000
Swed
en87
745
8582
9212
000
6220
835
450
093
947
9386
4612
500
Uni
ted
Kin
gdom
2501
9520
2061
034
150
403
4630
1882
044
120
2904
1415
039
430
7827
0
All
Mem
berS
tate
s(t
otal
)66
853
1555
3525
7701
3517
9619
2186
6449
856
1424
6670
362
1645
5930
9168
4948
12
See
Tabl
e78
onpa
ge74
forc
orre
spon
ding
win
dpo
wer
capa
city
data
.Fo
rFin
land
nobr
eakd
own
into
onsh
ore
and
offs
hore
win
dpo
wer
has
been
spec
ified
afte
r200
5.Fo
rIre
land
the
ener
gypr
oduc
tion
has
notb
een
allo
cate
dto
eith
eron
shor
eor
offs
hore
win
dpo
wer
for
the
year
2005
.T
here
fore
,the
sum
ofth
esu
bcat
egor
ies
islo
wer
than
the
valu
efo
rA
llM
embe
rSt
ates
(tot
al).
Pola
ndre
port
sm
icro
-win
dse
para
tely
from
onsh
ore
win
d,w
hich
resu
ltsin
adi
ffer
ence
betw
een
onsh
ore
and
tota
lele
ctri
city
prod
uctio
n.
ECN-E--10-069 75
Biomass electric capacity (breakdown) [MW] 28 NOV 2011
Table80:P
rojectedbiom
asselectric
capacity[M
W]
forthe
period2005
-2020,allbiomass
inputcategoriesSolid
biomass
Biogas
Bioliquids
Totalbiomass
20052010
20152020
20052010
20152020
20052010
20152020
20052010
20152020
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
[MW
][M
W]
Belgium
270498
10522007
57106
224427
1314
1518
340618
12902452
Bulgaria
00
8993
00
5865
00
00
00
147158
Czech
Republic
n.a.n.a.
n.a.n.a.
36113
267417
n.a.n.a.
n.a.n.a.
36113
267417
Denm
ark740
9911717
240437
2695
3490
026
26777
10171837
2779G
ermany
24273707
43584792
6932368
31263796
54237
237237
31746312
77218825
Estonia
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
Ireland2
1575
9118
6262
620
00
020
77137
153G
reecen.a.
2020
35024
40100
210n.a.
n.a.n.a.
n.a.24
60120
560Spain
449596
7451187
152156
220400
00
00
601752
9651587
France623
8881531
238284
164363
6250
00
0707
10521895
3007Italy
6531026
13331640
284453
8261200
0439
710980
9371918
28693820
Cyprus
n.a.n.a.
n.a.n.a.
06
1017
n.a.n.a.
n.a.n.a.
06
1017
Latvia
32
46108
711
6492
n.a.n.a.
n.a.n.a.
1013
110200
Lithuania
222
115162
312
3562
00
00
534
150224
Luxem
bourg4
513
305
823
29n.a.
00
09
1336
59H
ungaryn.a.
360377
500n.a.
1443
100n.a.
n.a.n.a.
n.a.n.a.
374420
600M
altan.a.
015
15n.a.
38
7n.a.
n.a.n.a.
n.a.0
323
23N
etherlands966
12142062
2253162
216381
6390
00
01128
14302443
2892A
ustria892
10991114
116472
97100
10212
1515
15976
12111228
1281Poland
268300
13001550
1880
230980
00
00
286380
15302530
Portugal178
273367
3679
39105
150289
334435
435476
647907
952R
omania
010
300405
04
125195
00
00
014
425600
Slovenia15
2224
343
3058
610
0n.a.
n.a.18
5183
96Slovakia
47100
145170
218
80110
n.a.n.a.
n.a.n.a.
49118
225280
Finlandn.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.2140
17902200
2920Sw
eden2526
26412757
287242
4242
42n.a.
n.a.n.a.
n.a.2568
26832799
2914U
nitedK
ingdom501
5801290
3140957
13401240
11000
00
01458
19202530
4240
AllM
emberStates
(total)10566
1436920845
277162665
54077884
11237368
10391438
171115739
2260532367
43585
SeeTable
81on
page77
forcorrespondingbiom
asselectricity
electricityproduction
data.ForFinland
nobreakdow
ninto
biomass
inputtypeshas
beenprovided.T
herefore,thesum
ofallcategoriesis
lowerthan
thevalue
forAllM
ember
States(total).
76 ECN-E--10-069
28 NOV 2011 Biomass electricity generation (breakdown) [GWh]
Tabl
e81
:Pro
ject
edbi
omas
sel
ectr
icity
gene
ratio
n[G
Wh]
for
the
peri
od20
05-2
020,
brok
endo
wn
into
biom
ass
inpu
tcat
egor
ies
Solid
biom
ass
Bio
gas
Bio
liqui
dsTo
talb
iom
ass
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
[GW
h][G
Wh]
Bel
gium
1521
2580
5145
9575
235
393
777
1439
3534
3025
540
3007
5952
1103
9B
ulga
ria
00
490
514
00
313
351
00
00
00
803
865
Cze
chR
epub
lic56
013
0630
6532
9416
162
417
5428
710
00
072
119
3048
1961
65D
enm
ark
2960
3578
5312
6345
283
194
721
2493
00
18
3243
3772
6035
8846
Ger
man
y10
044
1749
821
695
2456
936
5213
829
1894
623
438
329
1450
1450
1450
1402
532
778
4209
049
457
Est
onia
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
3324
134
634
6Ir
elan
d8
2856
768
710
832
032
031
90
00
011
634
788
710
06G
reec
en.
a.73
7336
494
181
431
895
n.a.
n.a.
n.a.
n.a.
9425
450
412
59Sp
ain
2029
3719
4660
7400
623
799
1302
2617
00
00
2653
4517
5962
1001
7Fr
ance
3341
4506
8366
1347
047
893
521
2937
010
00
038
1954
4110
496
1717
1It
aly
3477
4758
6329
7900
1198
2129
4074
6020
017
5833
0948
6046
7586
4513
712
1878
0C
ypru
sn.
a.n.
a.n.
a.n.
a.0
3084
143
n.a.
n.a.
n.a.
n.a.
030
8414
3L
atvi
a5
827
164
236
6439
358
4n.
a.n.
a.n.
a.n.
a.41
7266
412
26L
ithua
nia
398
533
810
450
228
413
00
00
714
776
112
23L
uxem
bour
g19
2577
190
2744
123
144
n.a.
00
046
7020
033
4H
unga
ryn.
a.18
7019
8826
88n.
a.85
262
636
n.a.
n.a.
n.a.
n.a.
n.a.
1955
2250
3324
Mal
tan.
a.0
8686
n.a.
954
50n.
a.n.
a.n.
a.n.
a.0
914
013
5N
ethe
rlan
ds47
5851
0311
189
1197
528
387
221
6146
640
00
050
4159
7513
350
1663
9A
ustr
ia25
0741
3142
2345
3028
355
356
758
133
3636
3628
2347
2048
2651
47Po
land
1340
5700
8950
1020
011
132
894
340
180
00
014
5160
2898
9314
218
Port
ugal
934
1092
1468
1468
3413
836
852
510
0811
7015
2315
2319
7624
0033
5835
16R
oman
ia0
4814
5019
500
1960
095
00
00
00
6720
5029
00Sl
oven
ia82
150
272
309
3214
835
136
70
0n.
a.n.
a.11
429
862
367
6Sl
ovak
ia27
540
725
850
570
624
860
n.a.
n.a.
n.a.
n.a.
3261
013
4917
10Fi
nlan
d96
4039
3053
0078
6020
4050
270
n.a.
4120
4530
4780
9660
8090
9880
1291
0Sw
eden
7452
1051
313
574
1663
553
5353
5365
6565
65n.
a.n.
a.13
693
1675
4U
nite
dK
ingd
om43
4755
0079
9020
590
4762
6830
6300
5570
00
00
9109
1233
014
290
2616
0
All
Mem
berS
tate
s(t
otal
)55
054
7675
411
3798
1549
0012
482
2873
743
928
6397
214
7086
3310
944
1274
760
219
1037
3316
9017
2319
66
See
Tabl
e80
onpa
ge76
forc
orre
spon
ding
biom
ass
elec
tric
ityca
paci
tyda
ta.
ECN-E--10-069 77
Geothermal heat energy [ktoe] 28 NOV 2011
Table 82: Projected total geothermal heat energy [ktoe] for the period 2005 - 20202005 2010 2015 2020 2020
[ktoe] [ktoe] [ktoe] [ktoe] [%]
Belgium 2.8 3.2 4.1 5.7 0Bulgaria n.a. 1 3 9 0Czech Republic 0 0 15 15 1Denmark 0 0 0 0 0Germany 12 34 234 686 26Estonia n.a. n.a. n.a. n.a. n.a.Ireland 0 0 0 0 0Greece 10 24 23 51 2Spain 4 4 5 10 0France 130 155 310 500 19Italy 213 226 260 300 11Cyprus n.a. n.a. n.a. n.a. n.a.Latvia n.a. n.a. n.a. n.a. n.a.Lithuania 2 3 4 5 0Luxembourg n.a. 0 0 0 0Hungary n.a. 101 147 357 14Malta n.a. n.a. n.a. n.a. n.a.Netherlands 0 39 130 259 10Austria 19 19 27 40 2Poland n.a. 23 57 178 7Portugal 1 10 18 25 1Romania 17 25 52 80 3Slovenia 16 18 19 20 1Slovakia 3 3 40 90 3Finland 0 0 0 0 0Sweden n.a. n.a. n.a. n.a. n.a.United Kingdom 1 n.a. n.a. n.a. n.a.
All Member States (total) 430.8 688.2 1348.1 2630.7 100
78 ECN-E--10-069
28 NOV 2011 Solar thermal energy [ktoe]
Table 83: Projected total solar thermal energy [ktoe] for the period 2005 - 20202005 2010 2015 2020 2020
[ktoe] [ktoe] [ktoe] [ktoe] [%]
Belgium 3 29 91 199 3Bulgaria n.a. 6 11 21 0Czech Republic 2 7 15 22 0Denmark 10 11 14 16 0Germany 238 440 741 1245 20Estonia n.a. n.a. n.a. n.a. n.a.Ireland 0 4 12 20 0Greece 101 216 271 355 6Spain 61 159 308 644 10France 38 130 465 927 15Italy 27 113 424 1586 25Cyprus 41 59 75 90 1Latvia 0 0 1 2 0Lithuania 0 0 5 9 0Luxembourg 0 1 2 8 0Hungary n.a. 6 31 82 1Malta n.a. 3 3 3 0Netherlands 16 20 17 23 0Austria 92 127 181 269 4Poland n.a. 21 176 506 8Portugal 22 50 105 160 3Romania 0 0 14 70 1Slovenia 3 5 10 21 0Slovakia 0 2 7 30 0Finland 0 0 0 0 0Sweden 6 6 6 6 0United Kingdom 29 34 34 34 1
All Member States (total) 690 1449 3019 6348 100
ECN-E--10-069 79
Biomass heat energy (breakdown) [ktoe] 28 NOV 2011
Table84:P
rojectedbiom
assheatenergy
[ktoe]for
theperiod
2005-2020,broken
down
intobiom
assinputcategories
Solidbiom
assB
iogasB
ioliquidsB
io-SNG
forgridfeed-in
Totalbiomass
thermalenergy
20052010
20152020
20052010
20152020
20052010
20152020
20052010
20152020
20052010
20152020
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
Belgium
476669
11381947
29
2655
04
1432
n.a.n.a.
n.a.n.a.
477682
11782034
Bulgaria
724734
9161053
00
1320
00
00
n.a.n.a.
n.a.n.a.
724734
9291073
Czech
Republic
13511706
21372350
2353
110167
00
00
n.a.n.a.
n.a.n.a.
13741759
22482517
Denm
ark1714
21782426
247045
5992
1650
88
8n.a.
n.a.n.a.
n.a.1759
22452526
2643G
ermany
67947516
83898952
154912
13121692
313664
688711
n.a.n.a.
n.a.n.a.
72609092
1038811355
Estonia
505612
626607
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
505612
626607
Ireland176
188362
4537
1026
330
00
0n.a.
n.a.n.a.
n.a.183
198388
486G
reece951
10121128
1222n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.951
10121128
1222Spain
34413550
39974850
3633
63100
00
00
n.a.n.a.
n.a.n.a.
34773583
40604950
France9067
987012500
1590086
83260
5550
00
0n.a.
n.a.n.a.
n.a.9153
995312760
16455Italy
16292206
34045254
2626
83266
07
33150
n.a.n.a.
n.a.n.a.
16552239
35215670
Cyprus
416
2024
n.a.2
56
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
418
2430
Latvia
11131013
11391343
17
3949
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
11141020
11781392
Lithuania
685657
851973
16
2850
00
00
n.a.n.a.
n.a.n.a.
686663
8791023
Luxem
bourg16
1939
703
512
13n.a.
00
0n.a.
n.a.n.a.
n.a.19
2350
83H
ungaryn.a.
812800
1225n.a.
030
56n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
812829
1277M
altan.a.
00
0n.a.
12
2n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.0
12
2N
etherlands540
573604
65069
111174
2880
00
038
31202
582647
715980
1520A
ustria3025
34003447
35918
1516
160
00
0n.a.
n.a.n.a.
n.a.3033
34153463
3607Poland
n.a.3846
39964636
n.a.65
231453
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.3911
42275089
Portugal1785
15141515
148410
1023
37713
655801
801n.a.
n.a.n.a.
n.a.2507
21792339
2322R
omania
02793
29193845
01
1020
00
211
n.a.n.a.
n.a.n.a.
31662794
29313876
Slovenia401
415483
4970
00
043
012
28n.a.
n.a.n.a.
n.a.445
415495
526Slovakia
357443
540630
14
3660
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
358447
576690
Finland5450
27103300
394040
3030
60n.a.
22402470
2610n.a.
n.a.n.a.
n.a.5490
49905810
6610Sw
eden6992
78008607
941521
1814
1165
6565
65n.a.
n.a.n.a.
n.a.7013
78178622
9426U
nitedK
ingdom493
305904
361267
1854
302n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.560
323958
3914
AllM
emberStates
(total)47689
5655766186
80993600
14782689
44761134
36434093
441638
31202
58252561
6165273115
90399
80 ECN-E--10-069
28 NOV 2011 Heat pump thermal energy (breakdown) [ktoe]
Tabl
e85
:Pro
ject
edhe
atpu
mp
ther
mal
ener
gy[k
toe]
for
the
peri
od20
05-2
020,
brok
endo
wn
into
sour
cety
peA
erot
herm
alhe
atpu
mps
Geo
ther
mal
heat
pum
psH
ydro
ther
mal
heat
pum
psTo
talr
enew
able
ener
gyfr
omhe
atpu
mps
,
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
Bel
gium
3.5
26.1
77.5
168
2.8
20.9
67.8
147
0.7
5.2
16.1
357.
152
.216
1.4
350
Bul
gari
an.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.0
00
0C
zech
Rep
ublic
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
2945
8211
8D
enm
ark
4891
135
170
5211
916
619
90
00
010
021
030
137
0G
erm
any
3916
533
854
713
025
840
052
127
4262
7719
646
580
011
44E
ston
ian.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.Ir
elan
dn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.10
1851
84G
reec
e3
1410
422
91
323
50n.
a.n.
a.n.
a.n.
a.4
1712
727
9Sp
ain
45
710
412
2341
00
00
817
3151
Fran
ce27
664
1080
1280
4922
242
557
0n.
a.n.
a.n.
a.n.
a.76
886
1505
1850
Ital
y16
1127
1566
2175
440
145
522
210
514
620
321
1273
1857
2900
Cyp
rus
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
00.
341.
612.
97L
atvi
an.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.0
02
4L
ithua
nia
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
00
614
Lux
embo
urg
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
01
417
Hun
gary
n.a.
02
7n.
a.5
2810
7n.
a.1
729
n.a.
637
143
Mal
tan.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.N
ethe
rlan
dsn.
a.35
8111
7n.
a.90
161
242
n.a.
03
1154
132
252
377
Aus
tria
038
5510
50
1014
260
4868
131
6996
137
263
Pola
ndn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.25
7214
8Po
rtug
aln.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.0
0n.
a.n.
a.R
oman
ia0
01
40
02
80
00
00
03
12Sl
oven
ia0
17
140
426
380
25
52
837
58Sl
ovak
ia0
01
30
02
40
01
30
04
10Fi
nlan
dn.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.40
230
530
660
Swed
en0
5010
015
00
272
544
815
027
5480
034
969
710
46U
nite
dK
ingd
omn.
a.66
194
1301
n.a.
120
354
953
n.a.
n.a.
n.a.
n.a.
018
654
822
54
All
Mem
berS
tate
s(t
otal
)14
0.5
2282
.137
48.5
6280
242.
811
75.9
2380
.842
4329
.723
0.2
362.
157
461
6.1
4016
.54
7246
.01
1215
4.97
For
Irel
and,
Lith
uani
a,L
uxem
bour
gan
dFi
nlan
d(a
ndth
eN
ethe
rlan
dsan
dA
ustr
iain
2005
)no
brea
kdow
nin
toso
urce
type
sha
sbe
enpr
ovid
ed.
The
refo
re,t
hesu
mof
allc
ateg
orie
sis
low
erth
anth
eva
lue
forA
llM
embe
rSt
ates
(tot
al).
ECN-E--10-069 81
Bioethanol / bio-ETBE in renewable transport (breakdown) [ktoe] 28 NOV 2011
Table86:P
rojectedbioethanol/bio-E
TBE
inrenew
abletransport[ktoe]
forthe
period2005
-2020,indicatingthe
contributionofA
rticle21.2
andim
portedbioethanol/bio-E
TBE
Bioethanol/bio-E
TB
EA
rticle21.2
Bioethanol/bio-E
TB
Eim
portedTotalbioethanol/bio-E
TB
E
20052010
20152020
20052010
20152020
20052010
20152020
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
Belgium
00
00
00
00
037
4791
Bulgaria
00
00
00
010
00
1960
Czech
Republic
00
029
017
2429
050
91128
Denm
ark0
08
470
1395
940
1395
94G
ermany
00
32to
10732
to442
0189
482278
144639
996857
Estonia
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
00
1438
Irelandn.a.
00
0n.a.
349
990
4090
139G
reecen.a.
n.a.n.a.
n.a.n.a.
43256
414n.a.
43256
414Spain
00
052
025
00
113232
301400
Francen.a.
n.a.n.a.
n.a.0
5050
5075
550550
650Italy
019
60100
018
109200
0148
374600
Cyprus
00
015
00
315
00
315
Latvia
00
018
00
09
014
1918
Lithuania
00
n.a.0
00
00
113
3036
Luxem
bourg0
00
00
59
230
59
23H
ungary0
00
0n.a.
n.a.0
05
34106
304M
altan.a.
n.a.n.a.
n.a.n.a.
24
6n.a.
24
6N
etherlands0
1722
340
152196
2400
168217
282A
ustria0
00
00
1412
110
5461
80Poland
00
044
n.a.n.a.
n.a.n.a.
28279
334451
Portugal0
00
00
00
00
024
27R
omania
n.a.n.a.
n.a.35
n.a.n.a.
n.a.n.a.
n.a.75
121163
Slovenian.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.0
48
19Slovakia
00
025
00
00
015
3075
Finland0
020
400
n.a.n.a.
00
70120
130Sw
eden0
00
0117
140185
292144
251358
465U
nitedK
ingdom0
00
0n.a.
112574
144718
135692
1743
AllM
emberStates
(total)0
36180
676117
7832048
3216528
28714968
7307
The
Germ
anA
ctionPlan
definesa
datarange
forArticle
21.2B
ioethanol/bio-ET
BE
.Inthe
tablethe
rangeis
provided,butthe‘total’value
usesthe
averagevalue
oftherange
(69.5ktoe
for2015and
237.0ktoe
for2020).
82 ECN-E--10-069
28 NOV 2011 Biodiesel in renewable transport (breakdown) [ktoe]
Tabl
e87
:Pro
ject
edbi
odie
seli
nre
new
able
tran
spor
t[kt
oe]
for
the
peri
od20
05-2
020,
indi
catin
gth
eco
ntri
butio
nof
Art
icle
21.2
and
impo
rted
biod
iese
lB
iodi
esel
Art
icle
21.2
Bio
dies
elim
port
edTo
talb
iodi
esel
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
Bel
gium
00
012
70
00
00
292
449
698
Bul
gari
a0
00
00
00
00
3314
022
0C
zech
Rep
ublic
00
021
56
6410
414
33
193
347
495
Den
mar
k0
013
840
1815
216
70
1815
216
7G
erm
any
098
9898
014
5961
028
4615
9827
9020
7444
43E
ston
ian.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.0
121
51Ir
elan
dn.
a.0
00
n.a.
412
524
01
9420
934
2G
reec
en.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.1
6413
020
3Sp
ain
050
161
200
091
032
531
014
514
7121
6931
00Fr
ance
n.a.
n.a.
n.a.
n.a.
1340
040
040
032
821
6523
7528
50It
aly
2172
161
250
073
436
800
179
868
1374
1880
Cyp
rus
00
223
09
1123
016
2023
Lat
via
00
015
00
08
325
2028
Lith
uani
a0
00
00
00
03
4279
131
Lux
embo
urg
00
00
137
7219
31
3772
193
Hun
gary
018
2022
00
00
011
014
420
2M
alta
n.a.
11
3n.
a.0
04
n.a.
11
7N
ethe
rlan
ds0
139
7012
10
6924
527
60
139
350
552
Aus
tria
00
00
3415
315
217
535
276
309
410
Pola
nd0
088
132
n.a.
n.a.
n.a.
n.a.
1568
799
314
51Po
rtug
al0
46
80
00
00
281
405
450
Rom
ania
n.a.
n.a.
n.a.
70n.
a.n.
a.n.
a.n.
a.n.
a.14
924
232
6Sl
oven
ian.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.n.
a.0
3772
174
Slov
akia
00
030
00
00
067
107
110
Finl
and
00
5014
00
n.a.
n.a.
00
150
300
430
Swed
en0
00
00
00
09
8917
025
1U
nite
dK
ingd
om0
00
0n.
a.78
416
5422
4057
861
1818
2462
All
Mem
berS
tate
s(t
otal
)21
383
670
1538
5439
8042
8778
2523
7810
956
1454
221
649
ECN-E--10-069 83
Hydrogen from renewables in transport [ktoe] 28 NOV 2011
Table 88: Projected total hydrogen from renewables in transport [ktoe] for the period 2005 -2020
2005 2010 2015 2020 2020[ktoe] [ktoe] [ktoe] [ktoe] [%]
Belgium 0 0 0 0 0Bulgaria 0 0 0 0 0Czech Republic 0 0 0 0 0Denmark 0 0 0 0 0Germany 0 0 0 0 0Estonia 0 n.a. n.a. n.a. n.a.Ireland n.a. 0 0 0 0Greece n.a. n.a. n.a. n.a. n.a.Spain 0 0 0 0 0France 0 0 0 0 0Italy 0 0 0 0 0Cyprus 0 0 0 0 0Latvia 0 0 0 0 0Lithuania 0 0 0 0 0Luxembourg 0 0 0 0 0Hungary 0 0 0 0 0Malta n.a. n.a. n.a. n.a. n.a.Netherlands 0 0 0 0 0Austria 0 0 0 0 0Poland n.a. n.a. n.a. n.a. n.a.Portugal 0 0 0 0 0Romania n.a. n.a. n.a. 2 100Slovenia n.a. n.a. n.a. n.a. n.a.Slovakia 0 0 0 0 0Finland 0 0 0 0 0Sweden 0 0 0 0 0United Kingdom 0 0 0 0 0
All Member States (total) 0 0 0 2 100
84 ECN-E--10-069
28 NOV 2011 Renewable electricity in transport (breakdown) [ktoe]
Tabl
e89
:Pro
ject
edre
new
able
elec
tric
ityin
tran
spor
t[kt
oe]
for
the
peri
od20
05-2
020,
indi
catin
gth
eco
ntri
butio
nof
road
and
non-
road
tran
spor
tR
enew
able
elec
tric
ityro
adtr
ansp
ort
Ren
ewab
leel
ectr
icity
non-
road
tran
spor
tTo
talr
enew
able
elec
tric
ity
2005
2010
2015
2020
2005
2010
2015
2020
2005
2010
2015
2020
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
[kto
e][k
toe]
Bel
gium
00
642
1624
4256
1624
4797
Bul
gari
a0
01
83
36
73
37
15C
zech
Rep
ublic
00
01
67
1619
67
1619
Den
mar
k0
04
129
1115
179
1119
29G
erm
any
00
063
169
219
373
604
169
219
374
667
Est
onia
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
n.a.
00
01
Irel
and
n.a.
00
340
11
21
11
37G
reec
en.
a.1
15
n.a.
26
11n.
a.2
717
Spai
n0
031
123
108
9919
325
810
899
224
381
Fran
ce0
031
110
141
183
229
292
141
183
260
402
Ital
y0
645
9813
916
421
927
113
917
026
536
9C
ypru
s0
00
10
00
00
00
1L
atvi
a1
12
23
23
44
35
6L
ithua
nia
00
00
00
00
00
23
Lux
embo
urg
00
05
12
35
12
410
Hun
gary
00
02
06
1522
06
1524
Mal
tan.
a.0
01
n.a.
n.a.
n.a.
n.a.
n.a.
00
1N
ethe
rlan
ds0
01
248
1222
478
1223
71A
ustr
ia0
08
6816
217
118
320
416
217
119
127
2Po
land
00
020
015
2330
015
2350
Port
ugal
00
520
1220
3238
1220
3758
Rom
ania
1110
1314
3026
3339
4136
4553
Slov
enia
00
01
45
79
45
711
Slov
akia
00
05
88
1012
88
1017
Finl
and
00
010
2020
2020
2020
2040
Swed
en0
36
912
114
416
719
012
114
717
319
8U
nite
dK
ingd
om0
04
2911
313
618
723
811
313
619
226
7
All
Mem
berS
tate
s(t
otal
)12
2115
970
610
7312
7918
0523
9510
8613
0119
6831
14
0
ECN-E--10-069 85
Other biofuels in transport (breakdown) [ktoe] 28 NOV 2011
Table90:P
rojectedother
biofuelsin
transport[ktoe]for
theperiod
2005-2020,indicating
thecontribution
ofArticle
21.2fuels
Otherbiofuels
Article
21.2Totalotherbiofuels
intransport
20052010
20152020
20052010
20152020
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
[ktoe][ktoe]
Belgium
00
00
00
00
Bulgaria
00
04
00
07
Czech
Republic
00
048
00
049
Denm
ark0
00
00
00
0G
ermany
00
426
to115
177102
35173
to261
Estonia
n.a.n.a.
n.a.n.a.
00
00
Ireland1
11
11
11
1G
reecen.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.Spain
00
00
00
14
France0
00
500
030
160Italy
05
2750
05
2750
Cyprus
00
00
00
00
Latvia
00
011
00
931
Lithuania
00
00
00
00
Luxem
bourg0
00
00
00
0H
ungary0
01
50
01
5M
altan.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.N
etherlandsn.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.A
ustria0
00
08
6371
94Poland
n.a.n.a.
2666
n.a.n.a.
2666
Portugal0
00
00
00
0R
omania
n.a.n.a.
n.a.6
n.a.n.a.
n.a.7
Slovenian.a.
n.a.n.a.
n.a.n.a.
n.a.n.a.
n.a.Slovakia
00
05
00
05
Finland0
00
00
00
0Sw
eden13
4067
9413
4067
94U
nitedK
ingdom0
00
00
00
0
AllM
emberStates
(total)14
46126
410199
211268
789
The
Germ
anA
ctionPlan
definesa
datarange
forboth
‘total’and
‘Article
21.2’other
biofuels.In
thetable
therange
isprovided,butthe
totalvaluefor
allMem
berStates
usesthe
averagevalue
oftherange
(70.5ktoe
for‘Article
21.2’otherbiofuelsand
217.0ktoe
for‘totalotherbiofuels’in2020).
86 ECN-E--10-069
Country Tables
ECN-E--10-069 87
Belgium 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
35030
52.24.3
0.40.1
36231
7.82.0
0.40.1
39134
3.01.1
0.40.1
44038
1.90.7
0.40.1
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
293
0.10.0
0.00.0
69Solarphotovoltaic
10
0.10.0
0.00.0
30426
6.51.7
0.30.1
61052
4.71.7
0.60.1
113998
4.91.8
1.00.2
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)1
00.1
0.00.0
0.0304
266.5
1.70.3
0.1610
524.7
1.70.6
0.11139
984.9
1.81.0
0.271
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.073
Onshore
wind
32027
47.63.9
0.30.1
84072
18.04.7
0.90.2
2100181
16.15.8
2.00.4
4274367
18.56.8
3.90.9
75O
ffshorew
ind0
00.0
0.00.0
0.0151
133.2
0.90.2
0.03984
34330.6
11.13.9
0.86200
53326.8
9.95.6
1.375
Wind
power(subtotal)
32027
47.63.9
0.30.1
99185
21.25.6
1.00.2
6084523
46.716.9
5.91.3
10474901
45.316.8
9.52.2
75Solid
biomass
1521131
226.718.6
1.70.3
2580222
55.314.6
2.60.5
5145442
39.514.3
5.01.1
9575823
41.415.3
8.62.0
77B
iogas235
2035.0
2.90.3
0.1393
348.4
2.20.4
0.1777
676.0
2.20.8
0.21439
1246.2
2.31.3
0.377
Bioliquids
353
5.20.4
0.00.0
343
0.70.2
0.00.0
303
0.20.1
0.00.0
252
0.10.0
0.00.0
77B
iomass
(subtotal)540
4680.5
6.60.6
0.13007
25964.5
17.03.1
0.65952
51245.7
16.55.8
1.211039
94947.7
17.710.0
2.377
Total(accordingto
Template
Tables10a/b)
67158
100.08.2
0.70.2
4664401
100.026.4
4.81.0
130371121
100.036.2
12.72.7
231211988
100.037.0
20.94.8
-Sum
ofalltechnologies(Tem
plateTables
10a/b)1211
104180.5
14.81.3
0.34664
401100.0
26.44.8
1.013037
1121100.0
36.212.7
2.723121
1988100.0
37.020.9
4.8-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)212
367.430.2
2.70.6
401100.0
26.44.8
1.01121
100.036.2
12.72.7
1988100.0
37.020.9
4.846
–49
Heating
andcooling
Geotherm
al3
0.60.4
0.00.0
30.4
0.20.0
0.04
0.30.1
0.00.0
60.2
0.10.0
0.078
Solarthermal
30.7
0.50.0
0.029
3.81.9
0.10.1
916.4
2.90.4
0.2199
7.73.7
0.90.5
79Solid
biomass
47696.9
67.72.2
1.2669
87.344.0
3.11.7
113879.3
36.75.2
2.81947
75.236.2
8.94.7
80B
iogas2
0.40.3
0.00.0
91.2
0.60.0
0.026
1.80.8
0.10.1
552.1
1.00.3
0.180
Bioliquids
00.0
0.00.0
0.04
0.50.3
0.00.0
141.0
0.50.1
0.032
1.20.6
0.10.1
80B
iomass
(subtotal)477
97.368.0
2.21.2
68289.0
44.93.1
1.71178
82.138.0
5.42.9
203478.6
37.89.3
4.980
Aerotherm
alheatpumps
40.7
0.50.0
0.026
3.41.7
0.10.1
785.4
2.50.4
0.2168
6.53.1
0.80.4
81G
eothermalheatpum
ps3
0.60.4
0.00.0
212.7
1.40.1
0.168
4.72.2
0.30.2
1475.7
2.70.7
0.481
Hydrotherm
alheatpumps
10.1
0.10.0
0.05
0.70.3
0.00.0
161.1
0.50.1
0.035
1.40.7
0.20.1
81R
enewable
energyfrom
heatpumps
(subtotal)7
1.41.0
0.00.0
526.8
3.40.2
0.1161
11.35.2
0.70.4
35013.5
6.51.6
0.881
Total(accordingto
Template
Table11)
491100.0
69.92.3
1.3766
100.050.4
3.51.9
1435100.0
46.36.6
3.52588
100.048.2
11.96.3
-Sum
ofalltechnologies(Tem
plateTable
11)491
100.069.9
2.31.3
767100.0
50.43.5
1.91435
100.046.3
6.63.5
2588100.0
48.211.9
6.3-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
491100.1
69.92.3
1.3766
99.950.4
3.51.9
1435100.0
46.46.6
3.52588
100.048.2
11.96.3
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
3710.5
2.40.4
0.147
8.61.5
0.50.1
9110.3
1.71.0
0.282
Biodiesel
00.0
0.00.0
0.0292
82.719.2
3.10.7
44982.5
14.54.8
1.1698
78.813.0
8.01.7
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity16
100.02.3
0.20.0
246.8
1.60.3
0.147
8.61.5
0.50.1
9710.9
1.81.1
0.285
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)16
100.02.3
0.20.0
353100.0
23.23.8
0.9544
100.017.6
5.81.3
886100.0
16.510.1
2.1-
Sumofalltechnologies
(Template
Table12)
16100.0
2.30.2
0.0353
100.023.2
3.80.9
54399.8
17.55.8
1.3886
100.016.5
10.12.1
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
16100.0
2.30.2
0.0353
100.023.2
3.80.9
54199.4
17.55.8
1.3798
90.114.8
9.11.9
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
16100.0
2.30.2
0.0353
100.023.2
3.80.9
544100.0
17.65.8
1.3886
100.016.5
10.12.1
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)702
100.08.3
1.81520
100.016.3
3.83096
100.033.3
7.55374
100.061.5
13.046
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
54878.1
6.51.4
149698.4
16.13.7
305398.6
32.87.4
536599.8
61.413.0
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
6117.2
1.61520
16.33.8
309933.3
7.55462
62.513.2
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
702100.0
8.31.8
1520100.0
16.33.8
3096100.0
33.37.5
5374100.0
61.513.0
46–
49
FinalE
lectricityreference
scenariof
79128670
94289985
34consum
ptionadditionalenergy
efficiencyf
7912100.0
20.78371
100.020.7
8829100.0
21.59526
100.023.1
35
Heating
andcooling
referencescenario
f21804
2180421804
2180436
additionalenergyefficiency
f21804
100.057.1
21804100.0
53.821804
100.053.1
21804100.0
52.837
Transportreference
scenariof
84939485
96619333
38additionalenergy
efficiencyf
8493100.0
22.29304
100.023.0
9306100.0
22.78740
100.021.2
39
Totalbeforeaviation
reductionreference
scenariof
3820941012
4205742386
40additionalenergy
efficiencyf
38209100.0
40517100.0
41076100.0
41301100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g2.2
4.47.1
13.024
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
88 ECN-E--10-069
28 NOV 2011 Bulgaria
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
3068
264
99.8
26.6
8.4
2.6
3223
277
83.9
26.5
8.9
2.7
3417
294
49.8
22.4
9.3
2.8
3712
319
48.8
18.6
10.1
3.0
67G
eoth
erm
al0
00.
00.
00.
00.
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00.
00.
00.
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0.1
0.0
0.0
343
295.
02.
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343
537
5.7
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343
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343
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00.
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552
15.8
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0.5
2293
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15.8
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2293
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7.1
3.2
1.3
0.4
514
446.
82.
61.
40.
477
Bio
gas
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
313
274.
62.
00.
80.
335
130
4.6
1.8
1.0
0.3
77B
ioliq
uids
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
77B
iom
ass
(sub
tota
l)0
00.
00.
00.
00.
00
00.
00.
00.
00.
080
369
11.7
5.3
2.2
0.7
865
7411
.44.
32.
40.
777
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
es10
a/b)
3073
264
100.
026
.78.
42.
638
4033
010
0.0
31.6
10.5
3.2
6856
590
100.
044
.918
.65.
676
0465
410
0.0
38.1
20.8
6.1
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
bles
10a/
b)30
7326
410
0.0
26.7
8.4
2.6
3840
330
100.
031
.610
.53.
268
5659
010
0.0
44.9
18.6
5.6
7604
654
100.
038
.120
.86.
1-
Gro
ssfin
alR
ES-
Eco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)26
499
.926
.68.
42.
633
099
.931
.510
.53.
259
010
0.1
44.9
18.6
5.6
654
100.
038
.120
.86.
146
–49
Hea
ting
and
cool
ing
Geo
ther
mal
n.a.
0.0
0.0
0.0
0.0
10.
10.
10.
00.
03
0.3
0.2
0.1
0.0
90.
80.
50.
20.
178
Sola
rthe
rmal
n.a.
0.0
0.0
0.0
0.0
60.
80.
60.
10.
111
1.2
0.8
0.2
0.1
211.
91.
20.
50.
279
Solid
biom
ass
724
100.
073
.115
.97.
073
499
.170
.216
.37.
191
697
.169
.820
.28.
610
5395
.561
.322
.79.
880
Bio
gas
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
131.
41.
00.
30.
120
1.8
1.2
0.4
0.2
80B
ioliq
uids
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
80B
iom
ass
(sub
tota
l)72
410
0.0
73.1
15.9
7.0
734
99.1
70.2
16.3
7.1
929
98.5
70.8
20.5
8.8
1073
97.3
62.5
23.1
10.0
80A
erot
herm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81G
eoth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81H
ydro
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
081
Ren
ewab
leen
ergy
from
heat
pum
ps(s
ubto
tal)
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
724
100.
073
.115
.97.
074
110
0.0
70.8
16.5
7.1
943
100.
071
.820
.88.
911
0310
0.0
64.2
23.8
10.3
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
ble
11)
724
100.
073
.115
.97.
074
110
0.0
70.8
16.5
7.1
943
100.
071
.820
.88.
911
0310
0.0
64.2
23.8
10.3
-G
ross
final
RE
S-H
/Cco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)72
410
0.0
73.1
15.9
7.0
741
100.
070
.816
.57.
194
310
0.0
71.8
20.8
8.9
1103
100.
064
.223
.810
.346
–49
Tran
spor
tB
ioet
hano
l/bi
o-E
TB
E0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
019
11.4
1.4
0.7
0.2
6019
.93.
52.
00.
682
Bio
dies
el0
0.0
0.0
0.0
0.0
3391
.73.
21.
20.
314
084
.310
.74.
81.
322
072
.812
.87.
52.
083
Hyd
roge
nfr
omre
new
able
s0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
084
Ren
ewab
leel
ectr
icity
310
0.0
0.3
0.1
0.0
38.
30.
30.
10.
07
4.2
0.5
0.2
0.1
155.
00.
90.
50.
185
Oth
erbi
ofue
ls0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
72.
30.
40.
20.
186
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e12
)3
100.
00.
30.
10.
036
100.
03.
41.
30.
316
610
0.0
12.6
5.7
1.6
302
100.
017
.610
.22.
8-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)3
100.
00.
30.
10.
036
100.
03.
41.
30.
316
610
0.0
12.6
5.7
1.6
302
100.
017
.610
.22.
8-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)3
100.
00.
30.
10.
036
100.
03.
41.
30.
316
610
0.0
12.6
5.7
1.6
302
100.
017
.610
.22.
846
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e0
0.0
0.0
0.0
0.0
3083
.32.
91.
10.
311
569
.38.
84.
01.
120
467
.511
.96.
91.
946
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)99
110
0.0
37.5
9.6
1107
105.
839
.910
.616
9912
9.4
58.6
16.0
2059
119.
869
.719
.246
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)98
899
.737
.49.
611
0410
5.6
39.8
10.6
1692
128.
858
.415
.920
4411
9.0
69.2
19.0
-Su
mal
ltec
hnol
ogie
sin
Tem
plat
eTa
bles
10a/
b,11
,12
991
37.5
9.6
1107
39.9
10.6
1699
58.6
16.0
2059
69.7
19.2
-C
o-op
erat
ion
mec
hani
sms
Tran
sfer
from
othe
rMem
berS
tate
san
dth
ird
coun
trie
s0
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
Tran
sfer
toot
herM
embe
rSta
tes
00.
00.
00.
061
5.8
2.2
0.6
386
29.4
13.3
3.6
341
19.8
11.6
3.2
46–
49A
llR
ES
incl
.co-
oper
atio
nm
ech.
Tota
l(Te
mpl
ate
Tabl
e4a
)99
110
0.0
37.5
9.6
1046
100.
037
.710
.113
1310
0.0
45.3
12.4
1718
100.
058
.216
.046
–49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f31
2931
3033
5535
9734
cons
umpt
ion
addi
tiona
lene
rgy
effic
ienc
yf31
2910
0.0
30.3
3130
100.
030
.131
7110
0.0
29.9
3148
100.
029
.335
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
4543
4851
5640
6193
36ad
ditio
nale
nerg
yef
ficie
ncyf
4543
100.
044
.044
9210
0.0
43.2
4539
100.
042
.846
3810
0.0
43.2
37
Tran
spor
tre
fere
nce
scen
ario
f26
4228
3031
9134
7338
addi
tiona
lene
rgy
effic
ienc
yf26
4210
0.0
25.6
2776
100.
026
.728
9810
0.0
27.3
2952
100.
027
.539
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f10
314
1081
112
186
1326
340
addi
tiona
lene
rgy
effic
ienc
yf10
314
100.
010
398
100.
010
608
100.
010
738
100.
041
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
n.a.
n.a.
n.a.
n.a.
42ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
9.4
10.7
12.4
16.0
24a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 89
Czech Republic 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
2380205
76.211.6
3.40.7
2109181
41.67.2
3.00.6
2220191
22.85.2
2.90.6
2274196
19.54.5
2.70.6
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
182
0.20.0
0.00.0
182
0.20.0
0.00.0
69Solarphotovoltaic
00
0.00.0
0.00.0
57850
11.42.0
0.80.2
1708147
17.54.0
2.20.5
1726148
14.83.4
2.10.5
71C
oncentratedsolarpow
ern.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.071
Solar(subtotal)0
00.0
0.00.0
0.0578
5011.4
2.00.8
0.21708
14717.5
4.02.2
0.51726
14814.8
3.42.1
0.571
Tidal,wave
andocean
energyn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.073
Onshore
wind
212
0.70.1
0.00.0
45439
9.01.6
0.60.1
97584
10.02.3
1.30.3
1496129
12.82.9
1.80.4
75O
ffshorew
indn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.075
Wind
power(subtotal)
212
0.70.1
0.00.0
45439
9.01.6
0.60.1
97584
10.02.3
1.30.3
1496129
12.82.9
1.80.4
75Solid
biomass
56048
17.92.7
0.80.2
1306112
25.74.5
1.90.4
3065264
31.57.2
3.90.8
3294283
28.26.5
3.90.9
77B
iogas161
145.2
0.80.2
0.0624
5412.3
2.10.9
0.21754
15118.0
4.12.3
0.52871
24724.6
5.63.4
0.877
Bioliquids
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
77B
iomass
(subtotal)721
6223.1
3.51.0
0.21930
16638.1
6.62.7
0.64819
41449.5
11.36.2
1.36165
53052.8
12.17.3
1.677
Total(accordingto
Template
Tables10a/b)
3122268
100.015.3
4.50.9
5072436
100.017.4
7.21.5
9741838
100.022.8
12.52.7
116791004
100.022.9
13.93.1
-Sum
ofalltechnologies(Tem
plateTables
10a/b)3122
268100.0
15.34.5
0.95071
436100.0
17.47.2
1.59740
837100.0
22.812.5
2.711679
1004100.0
22.913.9
3.1-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)269
100.215.3
4.50.9
445102.0
17.87.4
1.5864
103.223.5
12.92.8
1038103.4
23.714.4
3.246
–49
Heating
andcooling
Geotherm
al0
0.00.0
0.00.0
00.0
0.00.0
0.015
0.60.4
0.10.0
150.6
0.30.1
0.078
Solarthermal
20.1
0.10.0
0.07
0.40.3
0.00.0
150.6
0.40.1
0.022
0.80.5
0.10.1
79Solid
biomass
135196.2
76.87.7
4.61706
94.268.1
9.65.7
213791.2
58.111.9
6.92350
88.453.6
12.67.2
80B
iogas23
1.61.3
0.10.1
532.9
2.10.3
0.2110
4.73.0
0.60.4
1676.3
3.80.9
0.580
Bioliquids
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
80B
iomass
(subtotal)1374
97.878.1
7.84.6
175997.1
70.29.9
5.92247
95.961.1
12.57.2
251794.7
57.413.5
7.780
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)29
2.11.6
0.20.1
452.5
1.80.3
0.282
3.52.2
0.50.3
1184.4
2.70.6
0.481
Total(accordingto
Template
Table11)
1405100.0
79.88.0
4.71811
100.072.3
10.26.0
2344100.0
63.713.0
7.52657
100.060.6
14.28.2
-Sum
ofalltechnologies(Tem
plateTable
11)1405
100.079.8
8.04.7
1811100.0
72.310.2
6.02359
100.664.2
13.17.6
2672100.6
61.014.3
8.2-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
1482105.5
84.28.4
5.01811
100.072.3
10.26.0
2359100.6
64.213.1
7.62672
100.661.0
14.38.2
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
5020.0
2.00.8
0.291
20.02.5
1.40.3
12818.5
2.91.9
0.482
Biodiesel
333.3
0.20.0
0.0193
77.27.7
3.10.6
34776.3
9.45.4
1.1495
71.611.3
7.51.5
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity6
66.70.3
0.10.0
72.8
0.30.1
0.016
3.50.4
0.20.1
192.7
0.40.3
0.185
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.049
7.11.1
0.70.2
86Total(according
toTem
plateTable
12)9
100.00.5
0.10.0
250100.0
10.04.1
0.8455
100.012.4
7.11.5
691100.0
15.810.4
2.1-
Sumofalltechnologies
(Template
Table12)
9100.0
0.50.1
0.0250
100.010.0
4.10.8
45499.8
12.37.1
1.5691
100.015.8
10.42.1
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
9100.0
0.50.1
0.0250
100.010.0
4.10.8
455100.0
12.47.1
1.5691
100.015.8
10.42.1
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
9100.0
0.50.1
0.0250
100.010.0
4.10.8
455100.0
12.47.1
1.5691
100.015.8
10.42.1
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)1760
100.029.3
5.92506
100.040.9
8.43677
100.057.2
11.84383
100.066.2
13.546
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
167695.3
27.95.7
249099.4
40.68.3
362198.5
56.311.6
433398.9
65.513.3
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
168228.0
5.72497
40.78.3
365056.8
11.74367
66.013.4
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
1760100.0
29.35.9
2506100.0
40.98.4
3677100.0
57.211.8
4383100.0
66.213.5
46–
49
FinalE
lectricityreference
scenariof
60146151
69037563
34consum
ptionadditionalenergy
efficiencyf
6014100.0
20.36036
100.020.1
6697100.0
21.57232
100.022.2
35
Heating
andcooling
referencescenario
f17644
1832618856
1999236
additionalenergyefficiency
f17644
100.059.5
17805100.0
59.417963
100.057.8
18680100.0
57.437
Transportreference
scenariof
60076146
65066573
38additionalenergy
efficiencyf
6007100.0
20.26128
100.020.4
6429100.0
20.76618
100.020.3
39
Totalbeforeaviation
reductionreference
scenariof
2966530623
3226534128
40additionalenergy
efficiencyf
29665100.0
29969100.0
31089100.0
32531100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g6.1
7.59.2
13.024
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
90 ECN-E--10-069
28 NOV 2011 Denmark
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
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er<
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0.0
0.0
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n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
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0.0
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67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
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0.0
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67H
ydro
pow
er>1
0MW
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0.0
0.0
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0.0
0.0
0.0
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n.a.
0.0
0.0
0.0
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n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
232
0.2
0.1
0.1
0.0
313
0.2
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0.0
313
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67G
eoth
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once
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er0
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071
Sola
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Off
shor
ew
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1456
125
14.7
4.6
4.0
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2485
214
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6.9
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4920
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11.3
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5322
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75W
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6614
569
66.9
20.9
18.0
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8606
740
69.3
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1124
296
764
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56.9
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6.1
75So
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377
Bio
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283
242.
90.
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119
417
1.6
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721
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21.
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424
9321
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46.
61.
377
Bio
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ds0
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01
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Bio
mas
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3243
279
32.8
10.3
8.8
1.7
3772
324
30.4
9.1
10.4
2.0
6035
519
34.9
13.9
16.0
3.1
8846
761
43.0
15.4
23.4
4.6
77To
tal(
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rdin
gto
Tem
plat
eTa
bles
10a/
b)98
8185
010
0.0
31.3
26.8
5.2
1241
210
6710
0.0
29.8
34.3
6.5
1731
214
8910
0.0
39.7
46.0
9.0
2059
517
7110
0.0
35.9
54.5
10.8
-Su
mof
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echn
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ies
(Tem
plat
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8285
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0.0
31.3
26.8
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1241
110
6710
0.0
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7110
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ross
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ble
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1477
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eatin
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olin
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eoth
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Bio
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Bio
liqui
ds0
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Bio
mas
s(s
ubto
tal)
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94.1
64.7
21.8
10.7
2245
91.0
62.7
27.9
13.8
2526
88.9
67.4
31.9
15.2
2643
87.3
53.7
34.5
16.1
80A
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herm
alhe
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482.
61.
80.
60.
391
3.7
2.5
1.1
0.6
135
4.8
3.6
1.7
0.8
170
5.6
3.5
2.2
1.0
81G
eoth
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81.
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60.
311
94.
83.
31.
50.
716
65.
84.
42.
11.
019
96.
64.
02.
61.
281
Hyd
roth
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alhe
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mps
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
81R
enew
able
ener
gyfr
omhe
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71.
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Tota
l(ac
cord
ing
toTe
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ate
Tabl
e11
)18
6910
0.0
68.8
23.2
11.3
2466
100.
068
.930
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.128
4110
0.0
75.8
35.8
17.1
3028
100.
061
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Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e11
)18
6910
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68.8
23.2
11.3
2466
100.
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4110
0.0
75.8
35.8
17.1
3029
100.
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Gro
ssfin
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1869
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69.3
30.8
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4210
0.5
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18.5
46–
49Tr
ansp
ort
Bio
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nol/
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ET
BE
00.
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31.0
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9535
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1.9
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0.6
82B
iodi
esel
00.
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57.1
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167
57.4
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83H
ydro
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00.
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84R
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ther
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uels
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86To
tal(
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Tem
plat
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ble
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910
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0.3
0.2
0.1
4210
0.0
1.2
1.0
0.3
266
100.
07.
16.
11.
629
099
.75.
96.
71.
8-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)9
100.
00.
30.
20.
142
100.
01.
21.
00.
326
610
0.0
7.1
6.1
1.6
291
100.
05.
96.
71.
846
–49
RE
S-T
incl
udin
gA
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.2(T
empl
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Tabl
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100.
00.
30.
20.
142
100.
01.
21.
00.
329
210
9.8
7.8
6.7
1.8
439
150.
98.
910
.12.
746
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)27
1810
0.0
65.6
16.5
3578
100.
085
.421
.945
7912
2.2
105.
227
.649
8910
1.3
115.
230
.446
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)27
1910
0.0
65.6
16.5
3564
99.6
85.0
21.8
4577
122.
210
5.1
27.6
5061
102.
711
6.8
30.8
-Su
mal
ltec
hnol
ogie
sin
Tem
plat
eTa
bles
10a/
b,11
,12
2728
65.8
16.6
3575
85.3
21.9
4595
105.
627
.750
9011
7.5
31.0
-C
o-op
erat
ion
mec
hani
sms
Tran
sfer
from
othe
rMem
berS
tate
san
dth
ird
coun
trie
s0
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
Tran
sfer
toot
herM
embe
rSta
tes
00.
00.
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00
0.0
0.0
0.0
833
22.2
19.1
5.0
631.
31.
50.
446
–49
All
RE
Sin
cl.c
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tal(
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plat
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ble
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2718
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065
.616
.535
7810
0.0
85.4
21.9
3746
100.
086
.122
.649
2610
0.0
113.
730
.046
–49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f31
6631
4434
1835
6434
cons
umpt
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addi
tiona
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rgy
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ienc
yf31
6610
0.0
19.2
3108
100.
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.032
3410
0.0
19.5
3247
100.
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.835
Hea
ting
and
cool
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iof
8071
8161
8512
8727
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yef
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8071
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049
.080
4210
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49.3
7929
100.
047
.876
5310
0.0
46.6
37
Tran
spor
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scen
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f41
4542
0744
2844
6438
addi
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yf41
4510
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25.2
4191
100.
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.743
5310
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26.2
4332
100.
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.439
Tota
lbef
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avia
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redu
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scen
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f16
475
1649
517
453
1798
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addi
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100.
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324
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419
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Tota
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n.a.
n.a.
n.a.
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n.a.
0.0
n.a.
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1634
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22.9
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The
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Add
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adju
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In‘F
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umpt
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valu
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rthe
year
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refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
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ars
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and
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itis
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rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
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Gen
eral
:whe
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toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
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Tem
plat
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edby
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tp://
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i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 91
Germany 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
196871693
31.911.3
3.30.7
180001548
17.16.9
3.00.7
190001634
12.15.7
3.20.8
200001720
9.24.5
3.60.9
67G
eothermal
00
0.00.0
0.00.0
272
0.00.0
0.00.0
37732
0.20.1
0.10.0
1654142
0.80.4
0.30.1
69Solarphotovoltaic
1282110
2.10.7
0.20.0
9499817
9.03.6
1.60.4
261612249
16.67.8
4.41.1
413893559
19.19.2
7.41.8
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)1282
1102.1
0.70.2
0.09499
8179.0
3.61.6
0.426161
224916.6
7.84.4
1.141389
355919.1
9.27.4
1.871
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.073
Onshore
wind
266582292
43.215.4
4.41.0
443973817
42.316.9
7.41.7
619905330
39.318.5
10.52.5
726646248
33.516.2
12.93.2
75O
ffshorew
ind0
00.0
0.00.0
0.0271
230.3
0.10.0
0.08004
6885.1
2.41.4
0.331771
273214.6
7.15.7
1.475
Wind
power(subtotal)
266582292
43.215.4
4.41.0
446683841
42.617.0
7.41.7
699946018
44.420.9
11.92.8
1044358980
48.123.3
18.64.6
75Solid
biomass
10044864
16.35.8
1.70.4
174981505
16.76.7
2.90.7
216951865
13.86.5
3.70.9
245692113
11.35.5
4.41.1
77B
iogas3652
3145.9
2.10.6
0.113829
118913.2
5.32.3
0.518946
162912.0
5.73.2
0.823438
201510.8
5.24.2
1.077
Bioliquids
32928
0.50.2
0.10.0
1450125
1.40.6
0.20.1
1450125
0.90.4
0.20.1
1450125
0.70.3
0.30.1
77B
iomass
(subtotal)14025
120622.7
8.12.3
0.532778
281831.2
12.55.4
1.342090
361926.7
12.67.2
1.749457
425322.8
11.08.8
2.277
Total(accordingto
Template
Tables10a/b)
616535301
100.035.5
10.22.3
1049729026
100.040.0
17.44.0
15762313553
100.047.0
26.86.4
21693518653
100.048.4
38.69.5
-Sum
ofalltechnologies(Tem
plateTables
10a/b)61652
5301100.0
35.510.2
2.3104972
9026100.0
40.017.4
4.0157622
13553100.0
47.026.8
6.4216935
18653100.0
48.438.6
9.5-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)5301
100.035.5
10.22.3
9026100.0
40.017.4
4.013553
100.047.0
26.86.4
18653100.0
48.438.6
9.546
–49
Heating
andcooling
Geotherm
al12
0.20.1
0.00.0
340.3
0.20.0
0.0234
1.90.8
0.20.1
6864.8
1.80.7
0.378
Solarthermal
2383.1
1.60.2
0.1440
4.41.9
0.40.2
7416.1
2.60.7
0.31245
8.63.2
1.30.6
79Solid
biomass
679488.2
45.55.8
3.07516
74.933.3
6.73.4
838969.0
29.18.1
3.98952
62.023.2
9.64.5
80B
iogas154
2.01.0
0.10.1
9129.1
4.00.8
0.41312
10.84.6
1.30.6
169211.7
4.41.8
0.980
Bioliquids
3134.1
2.10.3
0.1664
6.62.9
0.60.3
6885.7
2.40.7
0.3711
4.91.8
0.80.4
80B
iomass
(subtotal)7261
94.248.6
6.23.2
909290.6
40.38.1
4.110389
85.436.0
10.04.9
1135578.7
29.412.2
5.880
Aerotherm
alheatpumps
390.5
0.30.0
0.0165
1.60.7
0.10.1
3382.8
1.20.3
0.2547
3.81.4
0.60.3
81G
eothermalheatpum
ps130
1.70.9
0.10.1
2582.6
1.10.2
0.1400
3.31.4
0.40.2
5213.6
1.40.6
0.381
Hydrotherm
alheatpumps
270.4
0.20.0
0.042
0.40.2
0.00.0
620.5
0.20.1
0.077
0.50.2
0.10.0
81R
enewable
energyfrom
heatpumps
(subtotal)196
2.51.3
0.20.1
4654.6
2.10.4
0.2800
6.62.8
0.80.4
11447.9
3.01.2
0.681
Total(accordingto
Template
Table11)
7706100.0
51.66.6
3.410031
100.044.4
9.04.5
12163100.0
42.211.7
5.714431
100.037.4
15.57.3
-Sum
ofalltechnologies(Tem
plateTable
11)7707
100.051.6
6.63.4
10031100.0
44.49.0
4.512164
100.042.2
11.75.7
14430100.0
37.415.5
7.3-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
7706100.0
51.66.6
3.410031
100.044.4
9.04.5
12163100.0
42.211.7
5.714431
100.037.4
15.57.3
46–
49Transport
Bioethanol/bio-E
TB
E144
6.91.0
0.30.1
63917.0
2.81.2
0.3996
28.63.5
1.90.5
8570.0
2.21.8
0.482
Biodiesel
159876.6
10.73.0
0.72790
74.412.4
5.31.2
207459.6
7.24.0
1.04443
0.011.5
9.22.3
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity169
8.11.1
0.30.1
2195.8
1.00.4
0.1374
10.81.3
0.70.2
6670.0
1.71.4
0.385
Otherbiofuels
1778.5
1.20.3
0.1102
2.70.5
0.20.0
351.0
0.10.1
0.0n.a.
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)2087
100.014.0
3.90.9
3749100.0
16.67.2
1.73479
100.012.1
6.81.6
n.a.0.0
0.00.0
0.0-
Sumofalltechnologies
(Template
Table12)
2088100.0
14.03.9
0.93750
100.016.6
7.21.7
3479100.0
12.16.8
1.65967
0.015.5
12.43.0
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
2087100.0
14.03.9
0.93749
100.016.6
7.21.7
3479100.0
12.16.8
1.66140
0.015.9
12.73.1
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
2087100.0
14.03.9
0.93847
102.617.0
7.31.7
3613103.9
12.57.0
1.76390
0.016.6
13.23.2
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)14926
100.027.8
6.522588
100.043.1
10.128822
100.056.2
13.538557
100.079.8
19.646
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
14925100.0
27.86.5
22587100.0
43.110.1
28821100.0
56.213.5
3241784.1
67.116.4
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
1509628.2
6.622807
43.610.2
2919656.9
13.739050
80.819.8
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
14926100.0
27.86.5
22588100.0
43.110.1
28822100.0
56.213.5
38557100.0
79.819.6
46–
49
FinalE
lectricityreference
scenariof
5181351973
5255452627
34consum
ptionadditionalenergy
efficiencyf
51813100.0
22.651925
100.023.2
50588100.0
23.748317
100.024.5
35
Heating
andcooling
referencescenario
f116842
111661106215
9876636
additionalenergyefficiency
f116842
100.051.0
111597100.0
49.9103588
100.048.6
93139100.0
47.237
Transportreference
scenariof
5360252427
5218751996
38additionalenergy
efficiencyf
53602100.0
23.452355
100.023.4
51279100.0
24.148302
100.024.5
39
Totalbeforeaviation
reductionreference
scenariof
229092223767
218926211599
40additionalenergy
efficiencyf
229092100.0
223584100.0
213122100.0
197178100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g5.8
8.211.3
18.025
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
92 ECN-E--10-069
28 NOV 2011 Estonia
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
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67pr
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ydro
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67H
ydro
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Ons
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0.0
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77B
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(sub
tota
l)33
30.
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60.
40.
124
121
0.0
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2.5
0.6
346
300.
04.
23.
40.
934
630
0.0
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3.2
0.9
77To
tal(
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rdin
gto
Tem
plat
eTa
bles
10a/
b)n.
a.n.
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00.
00.
00.
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00.
00.
0n.
a.n.
a.0.
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00.
00.
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a.n.
a.0.
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00.
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Sum
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ltec
hnol
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empl
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Tabl
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a/b)
107
90.
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81.
20.
360
452
0.0
7.8
6.3
1.6
1357
117
0.0
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13.2
3.5
1913
164
0.0
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4.8
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ross
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353
0.0
8.0
6.4
1.7
117
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Sola
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Bio
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80B
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31.3
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607
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Aer
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00.
00.
00.
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00.
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081
Geo
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Tota
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Sum
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)50
510
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110
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3510
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the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
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:320
09D
0548
:EN
:NO
T
ECN-E--10-069 93
Ireland 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
76065
30.817.5
2.80.5
70160
12.07.0
2.40.5
71461
7.24.4
2.30.5
70160
5.02.7
2.10.4
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
69Solarphotovoltaic
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
71C
oncentratedsolarpow
ern.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.0230
201.7
0.90.7
0.173
Onshore
wind
n.a.n.a.
0.00.0
0.00.0
4701404
80.147.1
16.33.1
7525647
75.746.4
24.54.8
10228879
73.538.8
31.36.2
75O
ffshorew
indn.a.
n.a.0.0
0.00.0
0.0116
102.0
1.20.4
0.1814
708.2
5.02.7
0.51742
15012.5
6.65.3
1.175
Wind
power(subtotal)
1588137
64.436.6
5.81.1
4817414
82.148.2
16.73.2
8339717
83.951.4
27.25.3
119701029
86.145.4
36.67.3
75Solid
biomass
81
0.30.2
0.00.0
282
0.50.3
0.10.0
56749
5.73.5
1.80.4
68759
4.92.6
2.10.4
77B
iogas108
94.4
2.50.4
0.1320
285.5
3.21.1
0.2320
283.2
2.01.0
0.2319
272.3
1.21.0
0.277
Bioliquids
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
77B
iomass
(subtotal)116
104.7
2.70.4
0.1347
305.9
3.51.2
0.2887
768.9
5.52.9
0.61006
877.2
3.83.1
0.677
Total(accordingto
Template
Tables10a/b)
2465212
100.056.8
9.11.7
5866504
100.058.7
20.43.9
9939855
100.061.3
32.46.3
139091196
100.052.7
42.58.5
-Sum
ofalltechnologies(Tem
plateTables
10a/b)2464
212100.0
56.89.1
1.75865
504100.0
58.720.4
3.99940
855100.0
61.332.4
6.313907
1196100.0
52.742.5
8.5-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)180
84.948.3
7.71.4
50499.9
58.720.4
3.9855
100.061.3
32.46.3
1196100.0
52.742.5
8.546
–49
Heating
andcooling
Geotherm
al0
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.078
Solarthermal
00.0
0.00.0
0.04
1.80.5
0.10.0
122.7
0.90.2
0.120
3.40.9
0.40.1
79Solid
biomass
17691.2
47.23.2
1.4188
85.521.9
3.61.4
36280.3
26.07.1
2.7453
76.620.0
9.23.2
80B
iogas7
3.61.9
0.10.1
104.5
1.20.2
0.126
5.81.9
0.50.2
335.6
1.50.7
0.280
Bioliquids
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
80B
iomass
(subtotal)183
94.849.1
3.31.4
19890.0
23.13.8
1.5388
86.027.8
7.72.9
48682.2
21.49.9
3.480
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)10
5.22.7
0.20.1
188.2
2.10.3
0.151
11.33.7
1.00.4
8414.2
3.71.7
0.681
Total(accordingto
Template
Table11)
193100.0
51.73.5
1.5220
100.025.6
4.31.7
451100.0
32.48.9
3.3591
100.026.0
12.04.2
-Sum
ofalltechnologies(Tem
plateTable
11)193
100.051.7
3.51.5
220100.0
25.64.3
1.7451
100.032.4
8.93.3
59099.8
26.012.0
4.2-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
193100.0
51.73.5
1.5220
100.025.6
4.31.7
451100.0
32.48.9
3.3591
100.026.0
12.04.2
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
4029.6
4.70.9
0.390
30.06.5
1.70.7
13928.8
6.12.4
1.082
Biodiesel
1100.0
0.30.0
0.094
69.610.9
2.10.7
20969.7
15.04.1
1.5342
71.015.1
6.02.4
83H
ydrogenfrom
renewables
n.a.0.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity1
100.00.3
0.00.0
10.7
0.10.0
0.01
0.30.1
0.00.0
377.7
1.60.6
0.385
Otherbiofuels
150.0
0.10.0
0.01
0.70.1
0.00.0
10.3
0.10.0
0.01
0.20.0
0.00.0
86Total(according
toTem
plateTable
12)1
100.00.3
0.00.0
135100.0
15.73.0
1.0300
100.021.5
5.82.2
482100.0
21.28.4
3.4-
Sumofalltechnologies
(Template
Table12)
3250.0
0.70.1
0.0136
100.715.8
3.01.0
301100.3
21.65.8
2.2519
107.722.9
9.03.7
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
1100.0
0.30.0
0.0135
100.015.7
3.01.0
300100.0
21.55.8
2.2482
100.021.2
8.43.4
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
1100.0
0.30.0
0.0138
102.216.1
3.01.1
304101.3
21.85.9
2.2575
119.325.3
10.04.1
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)373
100.09.5
2.9859
100.018.8
6.61605
115.131.2
11.82269
100.039.5
16.046
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
405108.6
10.43.2
85899.9
18.86.6
1605115.1
31.111.8
223298.4
38.815.8
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
40710.4
3.2860
18.86.6
160731.2
11.82305
40.116.3
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
21115.1
4.11.6
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
373100.0
9.52.9
859100.0
18.86.6
1394100.0
27.110.3
2269100.0
39.516.0
46–
49
FinalE
lectricityreference
scenariof
23412511
27642937
34consum
ptionadditionalenergy
efficiencyf
2341100.0
18.32473
100.019.0
2636100.0
19.42813
100.019.9
35
Heating
andcooling
referencescenario
f5516
51845388
572436
additionalenergyefficiency
f5516
100.043.1
5160100.0
39.65069
100.037.3
4931100.0
34.937
Transportreference
scenariof
39124605
53115913
38additionalenergy
efficiencyf
3912100.0
30.54564
100.035.0
5152100.0
38.05747
100.040.6
39
Totalbeforeaviation
reductionreference
scenariof
1280713127
1418115367
40additionalenergy
efficiencyf
12807100.0
13024100.0
13575100.0
14142100.0
41
Totalafteraviationreduction
referencescenario
f12741
13106n.a.
n.a.42
additionalenergyefficiency
f12741
99.512996
99.8n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g3.1
5.78.9
16.025
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
94 ECN-E--10-069
28 NOV 2011 Greece
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
67G
eoth
erm
aln.
a.n.
a.0.
00.
00.
00.
00
00.
00.
00.
00.
012
311
0.7
0.4
0.2
0.0
736
632.
71.
51.
10.
369
Sola
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tovo
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10
0.0
0.0
0.0
0.0
242
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11.
20.
40.
116
6814
39.
85.
72.
70.
628
9124
910
.65.
74.
21.
071
Con
cent
rate
dso
larp
ower
n.a.
n.a.
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
867
0.5
0.3
0.1
0.0
714
612.
61.
41.
00.
371
Sola
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10
0.0
0.0
0.0
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242
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11.
20.
40.
117
5415
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736
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15.
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371
Tida
l,w
ave
and
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ergy
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
73O
nsho
rew
ind
1267
109
21.9
7.2
2.0
0.5
3129
269
39.9
15.0
5.3
1.2
9674
832
57.0
32.8
15.7
3.7
1612
513
8759
.131
.923
.65.
775
Off
shor
ew
ind
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
672
582.
51.
31.
00.
275
Win
dpo
wer
(sub
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6710
921
.97.
22.
00.
531
2926
939
.915
.05.
31.
296
7483
257
.032
.815
.73.
716
797
1444
61.6
33.3
24.5
6.0
75So
lidbi
omas
sn.
a.n.
a.0.
00.
00.
00.
073
60.
90.
40.
10.
073
60.
40.
20.
10.
036
431
1.3
0.7
0.5
0.1
77B
ioga
s94
81.
60.
50.
10.
018
116
2.3
0.9
0.3
0.1
431
372.
51.
50.
70.
289
577
3.3
1.8
1.3
0.3
77B
ioliq
uids
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
77B
iom
ass
(sub
tota
l)94
81.
60.
50.
10.
025
422
3.2
1.2
0.4
0.1
504
433.
01.
70.
80.
212
5910
84.
62.
51.
80.
477
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
es10
a/b)
5786
498
100.
033
.09.
12.
378
3867
410
0.0
37.6
13.3
3.0
1696
714
5910
0.0
57.5
27.6
6.6
2726
923
4510
0.0
54.0
39.8
9.7
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
bles
10a/
b)13
6211
723
.57.
82.
10.
536
2531
246
.217
.46.
21.
412
055
1037
71.0
40.9
19.6
4.7
2239
719
2682
.144
.432
.78.
0-
Gro
ssfin
alR
ES-
Eco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)44
088
.429
.28.
02.
067
410
0.0
37.6
13.3
3.0
1459
100.
057
.527
.66.
623
4510
0.0
54.0
39.8
9.7
46–
49H
eatin
gan
dco
olin
gG
eoth
erm
al10
0.9
0.7
0.1
0.0
241.
91.
30.
30.
123
1.5
0.9
0.3
0.1
512.
71.
20.
50.
278
Sola
rthe
rmal
101
9.5
6.7
1.2
0.5
216
17.0
12.0
2.5
1.0
271
17.5
10.7
3.1
1.2
355
18.6
8.2
3.7
1.5
79So
lidbi
omas
s95
189
.263
.111
.44.
410
1279
.756
.411
.74.
511
2872
.944
.513
.05.
112
2264
.028
.212
.65.
180
Bio
gas
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
80B
ioliq
uids
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
80B
iom
ass
(sub
tota
l)95
189
.263
.111
.44.
410
1279
.756
.411
.74.
511
2872
.944
.513
.05.
112
2264
.028
.212
.65.
180
Aer
othe
rmal
heat
pum
ps3
0.3
0.2
0.0
0.0
141.
10.
80.
20.
110
46.
74.
11.
20.
522
912
.05.
32.
40.
981
Geo
ther
mal
heat
pum
ps1
0.1
0.1
0.0
0.0
30.
20.
20.
00.
023
1.5
0.9
0.3
0.1
502.
61.
20.
50.
281
Hyd
roth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81R
enew
able
ener
gyfr
omhe
atpu
mps
(sub
tota
l)4
0.4
0.3
0.0
0.0
171.
30.
90.
20.
112
78.
25.
01.
50.
627
914
.66.
42.
91.
281
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e11
)10
6610
0.0
70.7
12.8
4.9
1269
100.
070
.814
.75.
715
4810
0.0
61.0
17.9
7.0
1908
100.
044
.019
.77.
9-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e11
)10
6610
0.0
70.7
12.8
4.9
1269
100.
070
.814
.75.
715
4910
0.1
61.1
17.9
7.0
1907
99.9
43.9
19.7
7.9
-G
ross
final
RE
S-H
/Cco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)10
6610
0.0
70.7
12.8
4.9
1269
100.
070
.814
.75.
715
4810
0.0
61.0
17.9
7.0
1908
100.
044
.019
.77.
946
–49
Tran
spor
tB
ioet
hano
l/bi
o-E
TB
En.
a.0.
00.
00.
00.
043
39.1
2.4
0.7
0.2
256
65.1
10.1
4.1
1.2
414
65.3
9.5
6.5
1.7
82B
iodi
esel
110
0.0
0.1
0.0
0.0
6458
.23.
61.
00.
313
033
.15.
12.
10.
620
332
.04.
73.
20.
883
Hyd
roge
nfr
omre
new
able
sn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
084
Ren
ewab
leel
ectr
icity
n.a.
0.0
0.0
0.0
0.0
22.
20.
10.
00.
07
1.8
0.3
0.1
0.0
172.
60.
40.
30.
185
Oth
erbi
ofue
lsn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
086
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e12
)1
100.
00.
10.
00.
011
010
0.0
6.1
1.7
0.5
393
100.
015
.56.
31.
863
410
0.0
14.6
10.0
2.6
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
ble
12)
110
0.0
0.1
0.0
0.0
109
99.5
6.1
1.7
0.5
393
100.
115
.56.
31.
863
499
.914
.610
.02.
6-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)1
100.
00.
10.
00.
011
010
0.0
6.1
1.7
0.5
393
100.
015
.56.
31.
863
410
0.0
14.6
10.0
2.6
46–
49R
ES-
Tin
clud
ing
Art
icle
21.2
(Tem
plat
eTa
ble
4b)e
110
0.0
0.1
0.0
0.0
111
100.
96.
21.
70.
539
510
0.5
15.6
6.3
1.8
641
101.
114
.810
.12.
746
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)15
0710
0.0
22.9
7.0
2050
114.
331
.49.
133
9313
3.7
54.3
15.2
4870
112.
276
.920
.246
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)15
6510
3.8
23.8
7.2
2051
114.
431
.49.
133
9313
3.7
54.3
15.2
4870
112.
276
.920
.2-
Sum
allt
echn
olog
ies
inTe
mpl
ate
Tabl
es10
a/b,
11,1
211
8418
.05.
516
9025
.97.
529
7947
.613
.444
6670
.518
.5-
Co-
oper
atio
nm
echa
nism
sTr
ansf
erfr
omot
herM
embe
rSta
tes
and
thir
dco
untr
ies
n.a.
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
46–
49Tr
ansf
erto
othe
rMem
berS
tate
sn.
a.0.
00.
00.
025
714
.33.
91.
185
633
.713
.73.
852
912
.28.
32.
246
–49
All
RE
Sin
cl.c
o-op
erat
ion
mec
h.To
tal(
Tem
plat
eTa
ble
4a)
1507
100.
022
.97.
017
9310
0.0
27.5
8.0
2537
100.
040
.611
.443
4110
0.0
68.5
18.0
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f54
8650
6154
8061
7934
cons
umpt
ion
addi
tiona
lene
rgy
effic
ienc
yf54
8610
0.0
25.3
5061
100.
022
.652
8510
0.0
23.8
5887
100.
024
.435
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
8355
8644
8743
9600
36ad
ditio
nale
nerg
yef
ficie
ncyf
8355
100.
038
.686
4410
0.0
38.6
8658
100.
038
.996
7410
0.0
40.1
37
Tran
spor
tre
fere
nce
scen
ario
f65
6867
7468
6472
5738
addi
tiona
lene
rgy
effic
ienc
yf65
6810
0.0
30.3
6528
100.
029
.162
5310
0.0
28.1
6336
100.
026
.339
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f21
649
2271
423
150
2526
240
addi
tiona
lene
rgy
effic
ienc
yf21
649
100.
022
418
100.
022
251
100.
024
114
100.
041
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
n.a.
n.a.
n.a.
n.a.
42ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
6.9
9.1
11.9
18.0
25a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 95
Spain 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
355033053
66.036.2
12.23.0
346172977
41.223.5
11.93.2
367323158
33.119.2
11.23.3
395933404
26.415.4
10.63.5
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
30026
0.20.1
0.10.0
69Solarphotovoltaic
414
0.10.0
0.00.0
6417552
7.64.3
2.20.6
9872849
8.95.2
3.00.9
143161231
9.55.6
3.81.3
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.01144
981.4
0.80.4
0.17913
6807.1
4.12.4
0.715353
132010.2
6.04.1
1.471
Solar(subtotal)41
40.1
0.00.0
0.07561
6509.0
5.12.6
0.717785
152916.0
9.35.4
1.629669
255119.8
11.67.9
2.671
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.0220
190.1
0.10.1
0.073
Onshore
wind
207291782
38.521.1
7.11.8
409783523
48.827.8
14.13.8
567864883
51.229.7
17.35.2
705026062
47.027.5
18.86.2
75O
ffshorew
ind0
00.0
0.00.0
0.00
00.0
0.00.0
0.0300
260.3
0.20.1
0.07753
6675.2
3.02.1
0.775
Wind
power(subtotal)
207291782
38.521.1
7.11.8
409783523
48.827.8
14.13.8
570864909
51.429.9
17.45.2
782546729
52.230.5
20.96.9
75Solid
biomass
2029174
3.82.1
0.70.2
3719320
4.42.5
1.30.3
4660401
4.22.4
1.40.4
7400636
4.92.9
2.00.7
77B
iogas623
541.2
0.60.2
0.1799
691.0
0.50.3
0.11302
1121.2
0.70.4
0.12617
2251.7
1.00.7
0.277
Bioliquids
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
77B
iomass
(subtotal)2653
2284.9
2.70.9
0.24517
3885.4
3.11.6
0.45962
5135.4
3.11.8
0.510017
8616.7
3.92.7
0.977
Total(accordingto
Template
Tables10a/b)
537734624
100.054.8
18.44.5
840347226
100.056.9
28.87.8
1109889543
100.058.1
33.810.1
15003012900
100.058.5
40.013.3
-Sum
ofalltechnologies(Tem
plateTables
10a/b)58926
5067109.6
60.120.2
5.087673
7539104.3
59.430.1
8.1117565
10109105.9
61.635.8
10.7158053
13590105.3
61.642.1
14.0-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)4624
100.054.8
18.44.5
7227100.0
56.928.8
7.89545
100.058.1
33.810.1
12903100.0
58.540.0
13.346
–49
Heating
andcooling
Geotherm
al4
0.10.0
0.00.0
40.1
0.00.0
0.05
0.10.0
0.00.0
100.2
0.00.0
0.078
Solarthermal
611.7
0.70.2
0.1159
4.21.3
0.50.2
3087.0
1.91.0
0.3644
11.42.9
2.20.7
79Solid
biomass
344196.9
40.88.5
3.43550
94.328.0
10.63.8
399790.8
24.312.7
4.24850
85.822.0
16.25.0
80B
iogas36
1.00.4
0.10.0
330.9
0.30.1
0.063
1.40.4
0.20.1
1001.8
0.50.3
0.180
Bioliquids
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
80B
iomass
(subtotal)3477
97.941.2
8.63.4
358395.2
28.210.7
3.84060
92.224.7
12.94.3
495087.5
22.416.6
5.180
Aerotherm
alheatpumps
40.1
0.00.0
0.05
0.10.0
0.00.0
70.2
0.00.0
0.010
0.20.0
0.00.0
81G
eothermalheatpum
ps4
0.10.0
0.00.0
120.3
0.10.0
0.023
0.50.1
0.10.0
410.7
0.20.1
0.081
Hydrotherm
alheatpumps
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)8
0.20.1
0.00.0
170.5
0.10.1
0.031
0.70.2
0.10.0
510.9
0.20.2
0.181
Total(accordingto
Template
Table11)
3550100.0
42.18.8
3.53764
100.029.7
11.34.0
4404100.0
26.814.0
4.75654
100.025.6
18.95.8
-Sum
ofalltechnologies(Tem
plateTable
11)3550
100.042.1
8.83.5
3763100.0
29.611.3
4.04404
100.026.8
14.04.7
5655100.0
25.618.9
5.8-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
3550100.0
42.18.8
3.53764
100.029.7
11.34.0
4404100.0
26.814.0
4.75654
100.025.6
18.95.8
46–
49Transport
Bioethanol/bio-E
TB
E113
30.91.3
0.30.1
23212.9
1.80.8
0.2301
11.21.8
1.00.3
40010.3
1.81.3
0.482
Biodiesel
14539.6
1.70.4
0.11471
81.611.6
4.81.6
216980.5
13.26.9
2.33100
79.814.1
9.83.2
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity108
29.51.3
0.30.1
995.5
0.80.3
0.1224
8.31.4
0.70.2
3819.8
1.71.2
0.485
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
10.0
0.00.0
0.04
0.10.0
0.00.0
86Total(according
toTem
plateTable
12)366
100.04.3
1.10.4
1802100.0
14.25.8
1.92695
100.016.4
8.62.8
3885100.0
17.612.3
4.0-
Sumofalltechnologies
(Template
Table12)
366100.0
4.31.1
0.41802
100.014.2
5.81.9
2695100.0
16.48.6
2.83885
100.017.6
12.34.0
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
366100.0
4.31.1
0.41802
100.014.2
5.81.9
2695100.0
16.48.6
2.83885
100.017.6
12.34.0
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
366100.0
4.31.1
0.41852
102.814.6
6.02.0
2902107.7
17.79.3
3.14322
111.219.6
13.64.5
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)8433
100.026.0
8.312693
100.041.1
13.616419
100.052.6
17.422057
100.069.6
22.746
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
8432100.0
26.08.3
12693100.0
41.113.6
16418100.0
52.617.4
22058100.0
69.622.7
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
898327.7
8.813104
42.414.1
1720855.1
18.223130
73.023.8
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countriesn.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.046
–49
TransfertootherM
emberStates
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
8433100.0
26.08.3
12693100.0
41.113.6
16419100.0
52.617.4
22057100.0
69.622.7
46–
49
FinalE
lectricityreference
scenariof
2508025056
2964735816
34consum
ptionadditionalenergy
efficiencyf
25080100.0
24.625056
100.026.9
28264100.0
29.932269
100.033.3
35
Heating
andcooling
referencescenario
f40254
3334032315
3183736
additionalenergyefficiency
f40254
100.039.5
33340100.0
35.831452
100.033.2
29849100.0
30.837
Transportreference
scenariof
3240730891
3439139410
38additionalenergy
efficiencyf
32407100.0
31.830875
100.033.1
31222100.0
33.031681
100.032.6
39
Totalbeforeaviation
reductionreference
scenariof
10184593379
100923112530
40additionalenergy
efficiencyf
101845100.0
93226100.0
94593100.0
97041100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.100866
11188242
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g8.7
11.013.8
20.026
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
96 ECN-E--10-069
28 NOV 2011 France
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
7024
060
4092
.637
.913
.33.
669
024
5935
79.0
28.4
12.9
3.6
7036
360
5060
.922
.113
.03.
871
703
6165
46.2
17.1
13.1
4.0
67G
eoth
erm
al95
80.
10.
10.
00.
015
313
0.2
0.1
0.0
0.0
314
270.
30.
10.
10.
047
541
0.3
0.1
0.1
0.0
69So
larp
hoto
volta
ic22
20.
00.
00.
00.
061
353
0.7
0.3
0.1
0.0
2617
225
2.3
0.8
0.5
0.1
5913
508
3.8
1.4
1.1
0.3
71C
once
ntra
ted
sola
rpow
er0
00.
00.
00.
00.
00
00.
00.
00.
00.
036
531
0.3
0.1
0.1
0.0
972
840.
60.
20.
20.
171
Sola
r(su
btot
al)
222
0.0
0.0
0.0
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613
530.
70.
30.
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8125
62.
60.
90.
60.
268
8559
24.
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471
Tida
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ave
and
ocea
nen
ergy
535
460.
70.
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050
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0.6
0.2
0.1
0.0
789
680.
70.
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10.
011
5099
0.7
0.3
0.2
0.1
73O
nsho
rew
ind
1128
971.
50.
60.
20.
111
638
1001
13.3
4.8
2.2
0.6
2263
419
4619
.67.
14.
21.
239
900
3431
25.7
9.5
7.3
2.2
75O
ffsh
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d0
00.
00.
00.
00.
00
00.
00.
00.
00.
080
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86.
92.
51.
50.
418
000
1548
11.6
4.3
3.3
1.0
75W
ind
pow
er(s
ubto
tal)
1128
971.
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20.
111
638
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13.3
4.8
2.2
0.6
3063
426
3426
.59.
65.
71.
657
900
4979
37.3
13.8
10.6
3.2
75So
lidbi
omas
s33
4128
74.
41.
80.
60.
245
0638
75.
21.
90.
80.
283
6671
97.
22.
61.
60.
413
470
1158
8.7
3.2
2.5
0.7
77B
ioga
s47
841
0.6
0.3
0.1
0.0
935
801.
10.
40.
20.
021
2918
31.
80.
70.
40.
137
0131
82.
40.
90.
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277
Bio
liqui
ds0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
077
Bio
mas
s(s
ubto
tal)
3819
328
5.0
2.1
0.7
0.2
5441
468
6.2
2.2
1.0
0.3
1049
690
29.
13.
31.
90.
617
171
1476
11.1
4.1
3.1
1.0
77To
tal(
acco
rdin
gto
Tem
plat
eTa
bles
10a/
b)75
839
6521
100.
041
.014
.43.
987
369
7512
100.
035
.916
.44.
611
5577
9938
100.
036
.321
.46.
215
5284
1335
210
0.0
37.0
28.5
8.6
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
bles
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b)75
839
6521
100.
041
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.43.
987
369
7512
100.
035
.916
.44.
611
5577
9938
100.
036
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.46.
215
5284
1335
210
0.0
37.0
28.5
8.6
-G
ross
final
RE
S-E
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
6118
93.8
38.4
13.5
3.7
7073
94.2
33.8
15.4
4.3
9407
94.7
34.3
20.3
5.9
1272
995
.335
.227
.18.
246
–49
Hea
ting
and
cool
ing
Geo
ther
mal
130
1.4
0.8
0.2
0.1
155
1.4
0.7
0.2
0.1
310
2.1
1.1
0.5
0.2
500
2.5
1.4
0.8
0.3
78So
lart
herm
al38
0.4
0.2
0.1
0.0
130
1.2
0.6
0.2
0.1
465
3.1
1.7
0.7
0.3
927
4.7
2.6
1.5
0.6
79So
lidbi
omas
s90
6796
.557
.013
.25.
498
7088
.847
.215
.06.
012
500
83.1
45.6
19.8
7.8
1590
080
.644
.026
.510
.280
Bio
gas
860.
90.
50.
10.
183
0.7
0.4
0.1
0.1
260
1.7
0.9
0.4
0.2
555
2.8
1.5
0.9
0.4
80B
ioliq
uids
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
80B
iom
ass
(sub
tota
l)91
5397
.457
.513
.35.
599
5389
.547
.615
.16.
112
760
84.8
46.6
20.3
8.0
1645
583
.445
.627
.410
.680
Aer
othe
rmal
heat
pum
ps27
0.3
0.2
0.0
0.0
664
6.0
3.2
1.0
0.4
1080
7.2
3.9
1.7
0.7
1280
6.5
3.5
2.1
0.8
81G
eoth
erm
alhe
atpu
mps
490.
50.
30.
10.
022
22.
01.
10.
30.
142
52.
81.
60.
70.
357
02.
91.
61.
00.
481
Hyd
roth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81R
enew
able
ener
gyfr
omhe
atpu
mps
(sub
tota
l)76
0.8
0.5
0.1
0.0
886
8.0
4.2
1.3
0.5
1505
10.0
5.5
2.4
0.9
1850
9.4
5.1
3.1
1.2
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
9397
100.
059
.013
.65.
611
121
100.
053
.216
.96.
815
040
100.
054
.923
.99.
419
732
100.
054
.632
.912
.7-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e11
)93
9710
0.0
59.0
13.6
5.6
1112
410
0.0
53.2
16.9
6.8
1504
010
0.0
54.9
23.9
9.4
1973
210
0.0
54.6
32.9
12.7
-G
ross
final
RE
S-H
/Cco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)93
9710
0.0
59.0
13.6
5.6
1112
410
0.0
53.2
16.9
6.8
1504
010
0.0
54.9
23.9
9.4
1973
210
0.0
54.6
32.9
12.7
46–
49Tr
ansp
ort
Bio
etha
nol/
bio-
ET
BE
7513
.80.
50.
20.
055
019
.02.
61.
20.
355
017
.12.
01.
30.
365
016
.01.
81.
50.
482
Bio
dies
el32
860
.32.
10.
70.
221
6574
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.44.
71.
323
7573
.98.
75.
41.
528
5070
.27.
96.
81.
883
Hyd
roge
nfr
omre
new
able
s0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
084
Ren
ewab
leel
ectr
icity
141
25.9
0.9
0.3
0.1
183
6.3
0.9
0.4
0.1
260
8.1
0.9
0.6
0.2
402
9.9
1.1
1.0
0.3
85O
ther
biof
uels
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
300.
90.
10.
10.
016
03.
90.
40.
40.
186
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e12
)54
410
0.0
3.4
1.2
0.3
2898
100.
013
.96.
31.
832
1510
0.0
11.7
7.3
2.0
4062
100.
011
.29.
62.
6-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)54
410
0.0
3.4
1.2
0.3
2898
100.
013
.96.
31.
832
1510
0.0
11.7
7.3
2.0
4062
100.
011
.29.
62.
6-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)54
410
0.0
3.4
1.2
0.3
2898
100.
013
.96.
31.
832
1510
0.0
11.7
7.3
2.0
4062
100.
011
.29.
62.
646
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e54
410
0.0
3.4
1.2
0.3
2948
101.
714
.16.
51.
833
7210
4.9
12.3
7.7
2.1
4427
109.
012
.310
.52.
946
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)15
918
100.
035
.39.
520
912
100.
045
.812
.727
402
100.
062
.317
.136
121
100.
085
.823
.346
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)16
321
102.
536
.29.
821
348
102.
146
.713
.027
933
101.
963
.517
.536
744
101.
787
.323
.7-
Sum
allt
echn
olog
ies
inTe
mpl
ate
Tabl
es10
a/b,
11,1
216
462
36.5
9.9
2153
447
.113
.128
193
64.1
17.6
3714
688
.223
.9-
Co-
oper
atio
nm
echa
nism
sTr
ansf
erfr
omot
herM
embe
rSta
tes
and
thir
dco
untr
ies
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
46–
49Tr
ansf
erto
othe
rMem
berS
tate
s0
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
All
RE
Sin
cl.c
o-op
erat
ion
mec
h.To
tal(
Tem
plat
eTa
ble
4a)
1591
810
0.0
35.3
9.5
2091
210
0.0
45.8
12.7
2740
210
0.0
62.3
17.1
3612
110
0.0
85.8
23.3
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f45
317
4737
849
439
5150
034
cons
umpt
ion
addi
tiona
lene
rgy
effic
ienc
yf45
317
100.
027
.245
849
100.
027
.946
381
100.
029
.046
913
100.
030
.235
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
6894
972
333
7571
679
100
36ad
ditio
nale
nerg
yef
ficie
ncyf
6894
910
0.0
41.4
6596
610
0.0
40.1
6298
310
0.0
39.4
6000
010
0.0
38.6
37
Tran
spor
tre
fere
nce
scen
ario
f45
080
5310
055
100
5750
038
addi
tiona
lene
rgy
effic
ienc
yf45
080
100.
027
.045
700
100.
027
.844
000
100.
027
.542
100
100.
027
.139
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f16
6689
1798
7718
7610
1957
4540
addi
tiona
lene
rgy
effic
ienc
yf16
6689
100.
016
4349
100.
015
9909
100.
015
5268
100.
041
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
n.a.
n.a.
n.a.
n.a.
42ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
9.6
12.8
16.0
23.0
26a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
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ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
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riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 97
Italy 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
437683763
77.754.2
12.72.7
421413623
63.134.1
11.82.7
420703617
51.424.3
11.52.7
420003611
42.516.0
11.22.7
67G
eothermal
5325458
9.46.6
1.50.3
5632484
8.44.6
1.60.4
6191532
7.63.6
1.70.4
6750580
6.82.6
1.80.4
69Solarphotovoltaic
313
0.10.0
0.00.0
1967169
2.91.6
0.60.1
6122526
7.53.5
1.70.4
9650830
9.83.7
2.60.6
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.09
10.0
0.00.0
0.0170
150.2
0.10.0
0.01700
1461.7
0.60.5
0.171
Solar(subtotal)31
30.1
0.00.0
0.01976
1703.0
1.60.6
0.16292
5417.7
3.61.7
0.411350
97611.5
4.33.0
0.771
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.01
00.0
0.00.0
0.05
00.0
0.00.0
0.073
Onshore
wind
2558220
4.53.2
0.70.2
8398722
12.66.8
2.40.5
131991135
16.17.6
3.60.9
180001548
18.26.8
4.81.2
75O
ffshorew
ind0
00.0
0.00.0
0.00
00.0
0.00.0
0.0453
390.6
0.30.1
0.02000
1722.0
0.80.5
0.175
Wind
power(subtotal)
2558220
4.53.2
0.70.2
8398722
12.66.8
2.40.5
136521174
16.77.9
3.70.9
200001720
20.27.6
5.31.3
75Solid
biomass
3477299
6.24.3
1.00.2
4758409
7.13.9
1.30.3
6329544
7.73.7
1.70.4
7900679
8.03.0
2.10.5
77B
iogas1198
1032.1
1.50.3
0.12129
1833.2
1.70.6
0.14074
3505.0
2.41.1
0.36020
5186.1
2.31.6
0.477
Bioliquids
00
0.00.0
0.00.0
1758151
2.61.4
0.50.1
3309285
4.01.9
0.90.2
4860418
4.91.8
1.30.3
77B
iomass
(subtotal)4675
4028.3
5.81.4
0.38645
74312.9
7.02.4
0.613712
117916.7
7.93.7
0.918780
161519.0
7.15.0
1.277
Total(accordingto
Template
Tables10a/b)
563564846
100.069.8
16.33.4
667915743
100.054.1
18.74.4
819187044
100.047.3
22.45.3
988858503
100.037.6
26.46.4
-Sum
ofalltechnologies(Tem
plateTables
10a/b)56357
4846100.0
69.816.3
3.466792
5743100.0
54.118.7
4.481918
7044100.0
47.322.4
5.398885
8503100.0
37.626.4
6.4-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)4847
100.069.8
16.33.4
5744100.0
54.118.7
4.47045
100.047.3
22.45.3
8504100.0
37.626.4
6.446
–49
Heating
andcooling
Geotherm
al213
11.13.1
0.30.2
2265.9
2.10.4
0.2260
4.31.7
0.40.2
3002.9
1.30.5
0.278
Solarthermal
271.4
0.40.0
0.0113
2.91.1
0.20.1
4247.0
2.80.7
0.31586
15.27.0
2.61.2
79Solid
biomass
162985.0
23.52.4
1.22206
57.320.8
3.71.7
340456.2
22.95.7
2.65254
50.223.2
8.63.9
80B
iogas26
1.40.4
0.00.0
260.7
0.20.0
0.083
1.40.6
0.10.1
2662.5
1.20.4
0.280
Bioliquids
00.0
0.00.0
0.07
0.20.1
0.00.0
330.5
0.20.1
0.0150
1.40.7
0.20.1
80B
iomass
(subtotal)1655
86.423.8
2.41.2
223958.1
21.13.8
1.73520
58.123.7
5.92.7
567054.2
25.19.3
4.380
Aerotherm
alheatpumps
160.8
0.20.0
0.01127
29.310.6
1.90.9
156625.8
10.52.6
1.22175
20.89.6
3.61.6
81G
eothermalheatpum
ps4
0.20.1
0.00.0
401.0
0.40.1
0.0145
2.41.0
0.20.1
5225.0
2.30.9
0.481
Hydrotherm
alheatpumps
20.1
0.00.0
0.0105
2.71.0
0.20.1
1462.4
1.00.2
0.1203
1.90.9
0.30.2
81R
enewable
energyfrom
heatpumps
(subtotal)21
1.10.3
0.00.0
127333.1
12.02.2
1.01857
30.612.5
3.11.4
290027.7
12.84.7
2.281
Total(accordingto
Template
Table11)
1916100.0
27.62.8
1.43851
100.036.3
6.52.9
6062100.0
40.710.1
4.610456
100.046.2
17.17.9
-Sum
ofalltechnologies(Tem
plateTable
11)1916
100.027.6
2.81.4
3851100.0
36.36.5
2.96061
100.040.7
10.14.6
10456100.0
46.217.1
7.9-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
1916100.0
27.62.8
1.43851
100.036.3
6.52.9
6062100.0
40.710.1
4.610456
100.046.2
17.17.9
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
14812.4
1.40.4
0.1374
18.32.5
1.10.3
60020.7
2.71.8
0.582
Biodiesel
17956.3
2.60.5
0.1868
72.98.2
2.30.7
137467.4
9.23.9
1.01880
64.88.3
5.51.4
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity139
43.72.0
0.40.1
17014.3
1.60.5
0.1265
13.01.8
0.70.2
36912.7
1.61.1
0.385
Otherbiofuels
00.0
0.00.0
0.05
0.40.0
0.00.0
271.3
0.20.1
0.050
1.70.2
0.10.0
86Total(according
toTem
plateTable
12)318
100.04.6
0.80.2
1190100.0
11.23.2
0.92040
100.013.7
5.71.5
2899100.0
12.88.5
2.2-
Sumofalltechnologies
(Template
Table12)
318100.0
4.60.8
0.21191
100.111.2
3.20.9
2040100.0
13.75.7
1.52899
100.012.8
8.52.2
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
17956.3
2.60.5
0.11020
85.79.6
2.80.8
177587.0
11.95.0
1.32530
87.311.2
7.41.9
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
338106.3
4.90.9
0.21295
108.812.2
3.51.0
2356115.5
15.86.6
1.83445
118.815.2
10.12.6
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)6942
100.017.8
4.910615
100.028.6
8.114882
100.041.9
11.221490
95.063.3
16.246
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
6941100.0
17.84.9
10614100.0
28.68.1
14881100.0
41.911.2
2148995.0
63.316.2
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
708018.2
5.010785
29.18.2
1514542.6
11.421858
64.316.4
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countriesn.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.01127
5.03.3
0.846
–49
TransfertootherM
emberStates
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
6942100.0
17.84.9
10615100.0
28.68.1
14882100.0
41.911.2
22617100.0
66.617.0
46–
49
FinalE
lectricityreference
scenariof
2974929505
3185335034
34consum
ptionadditionalenergy
efficiencyf
29749100.0
21.130701
100.023.3
31465100.0
23.832227
100.024.2
35
Heating
andcooling
referencescenario
f68501
6419465532
6649936
additionalenergyefficiency
f68501
100.048.5
58976100.0
44.760081
100.045.4
61185100.0
46.037
Transportreference
scenariof
3900036467
3798638544
38additionalenergy
efficiencyf
39000100.0
27.637054
100.028.1
35513100.0
26.833972
100.025.5
39
Totalbeforeaviation
reductionreference
scenariof
141226134643
140399145566
40additionalenergy
efficiencyf
141226100.0
131801100.0
132422100.0
133042100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g5.2
7.610.5
17.026
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
98 ECN-E--10-069
28 NOV 2011 Cyprus
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
67G
eoth
erm
aln.
a.n.
a.0.
00.
00.
00.
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a.n.
a.0.
00.
00.
00.
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a.n.
a.0.
00.
00.
00.
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a.n.
a.0.
00.
00.
00.
069
Sola
rpho
tovo
ltaic
00
100.
00.
00.
00.
06
19.
50.
50.
10.
059
510
.03.
00.
90.
230
927
26.3
10.1
4.2
1.2
71C
once
ntra
ted
sola
rpow
er0
00.
00.
00.
00.
00
00.
00.
00.
00.
014
913
25.2
7.5
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0.6
224
1919
.17.
33.
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971
Sola
r(su
btot
al)
00
100.
00.
00.
00.
06
19.
50.
50.
10.
020
818
35.1
10.5
3.3
0.9
533
4645
.417
.47.
22.
071
Tida
l,w
ave
and
ocea
nen
ergy
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
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0.0
n.a.
n.a.
0.0
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0.0
0.0
73O
nsho
rew
ind
00
0.0
0.0
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0.0
313
45.7
2.3
0.6
0.1
300
2650
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71.
249
943
42.5
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6.8
1.9
75O
ffsh
ore
win
dn.
a.n.
a.0.
00.
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a.0.
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Win
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(sub
tota
l)0
00.
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031
345
.72.
30.
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130
026
50.7
15.2
4.7
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499
4342
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81.
975
Solid
biom
ass
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
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n.a.
n.a.
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00.
00.
00.
00.
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344
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60.
184
714
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314
312
12.2
4.7
1.9
0.5
77B
ioliq
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n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
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0.0
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n.a.
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tota
l)0
00.
00.
00.
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344
.22.
30.
60.
184
714
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21.
30.
314
312
12.2
4.7
1.9
0.5
77To
tal(
acco
rdin
gto
Tem
plat
eTa
bles
10a/
b)0
010
0.0
0.0
0.0
0.0
686
100.
05.
11.
30.
359
251
100.
029
.99.
32.
411
7510
110
0.0
38.4
16.0
4.5
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
bles
10a/
b)0
010
0.0
0.0
0.0
0.0
676
99.4
5.1
1.3
0.3
592
5110
0.0
29.9
9.3
2.4
1175
101
100.
038
.416
.04.
5-
Gro
ssfin
alR
ES-
Eco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)0
0.0
0.0
0.0
0.0
2034
2.8
17.5
4.3
1.0
4690
.427
.18.
42.
210
110
0.0
38.4
16.0
4.5
46–
49H
eatin
gan
dco
olin
gG
eoth
erm
aln.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
078
Sola
rthe
rmal
4190
.886
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82.
259
76.0
51.8
12.3
3.1
7574
.444
.214
.83.
690
73.2
34.4
17.2
4.0
79So
lidbi
omas
s4
9.2
8.8
0.8
0.2
1621
.014
.33.
40.
820
19.5
11.6
3.9
0.9
2419
.59.
24.
61.
180
Bio
gas
n.a.
0.0
0.0
0.0
0.0
22.
61.
80.
40.
15
4.5
2.6
0.9
0.2
64.
92.
31.
10.
380
Bio
liqui
dsn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
080
Bio
mas
s(s
ubto
tal)
49.
28.
80.
80.
218
23.6
16.1
3.8
1.0
2424
.014
.24.
81.
230
24.4
11.5
5.7
1.3
80A
erot
herm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81G
eoth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81H
ydro
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
081
Ren
ewab
leen
ergy
from
heat
pum
ps(s
ubto
tal)
00.
00.
00.
00.
00
0.4
0.3
0.1
0.0
21.
60.
90.
30.
13
2.4
1.1
0.6
0.1
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
4510
0.0
94.7
8.6
2.4
7810
0.0
68.1
16.2
4.0
101
100.
059
.419
.84.
912
410
0.0
47.0
23.5
5.5
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
ble
11)
4510
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94.7
8.6
2.4
7810
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68.1
16.2
4.0
101
100.
059
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.84.
912
410
0.0
47.0
23.5
5.5
-G
ross
final
RE
S-H
/Cco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)48
105.
610
0.0
9.1
2.5
7810
0.4
68.4
16.3
4.1
101
100.
059
.419
.84.
912
410
0.3
47.1
23.5
5.5
46–
49Tr
ansp
ort
Bio
etha
nol/
bio-
ET
BE
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
311
.51.
50.
30.
115
38.3
5.6
1.9
0.7
82B
iodi
esel
00.
00.
00.
00.
016
100.
013
.82.
20.
820
87.2
11.6
2.7
1.0
2360
.48.
83.
01.
083
Hyd
roge
nfr
omre
new
able
s0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
084
Ren
ewab
leel
ectr
icity
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
01.
20.
20.
00.
01
1.5
0.2
0.1
0.0
85O
ther
biof
uels
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
86To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
12)
00.
00.
00.
00.
016
100.
013
.82.
20.
823
100.
013
.43.
11.
138
100.
014
.65.
01.
7-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)0
0.0
0.0
0.0
0.0
1610
0.0
13.8
2.2
0.8
2399
.913
.33.
01.
138
100.
214
.65.
01.
7-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)0
0.0
0.0
0.0
0.0
1610
1.9
14.0
2.2
0.8
2310
1.3
13.5
3.1
1.1
3899
.014
.44.
91.
746
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e0
0.0
0.0
0.0
0.0
1610
2.9
14.2
2.2
0.8
2510
8.1
14.4
3.3
1.2
7720
0.8
29.3
10.0
3.4
46–
49A
llR
ES
excl
.co-
oper
atio
nm
ech.
Gro
ssfin
alR
ES
cons
umpt
ion
(Tem
plat
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ble
4a)
4810
0.0
7.0
2.5
114
100.
015
.85.
917
010
0.0
22.8
8.2
263
100.
034
.211
.746
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)45
94.7
6.7
2.4
9987
.013
.85.
217
410
2.5
23.4
8.4
262
99.8
34.2
11.7
-Su
mal
ltec
hnol
ogie
sin
Tem
plat
eTa
bles
10a/
b,11
,12
456.
72.
499
13.8
5.2
175
23.5
8.4
263
34.3
11.7
-C
o-op
erat
ion
mec
hani
sms
Tran
sfer
from
othe
rMem
berS
tate
san
dth
ird
coun
trie
s0
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
Tran
sfer
toot
herM
embe
rSta
tes
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
46–
49A
llR
ES
incl
.co-
oper
atio
nm
ech.
Tota
l(Te
mpl
ate
Tabl
e4a
)48
100.
07.
02.
511
410
0.0
15.8
5.9
170
100.
022
.88.
226
310
0.0
34.2
11.7
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f37
446
457
368
334
cons
umpt
ion
addi
tiona
lene
rgy
effic
ienc
yf37
410
0.0
19.9
463
100.
024
.154
810
0.0
26.3
633
100.
028
.335
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
530
480
517
551
36ad
ditio
nale
nerg
yef
ficie
ncyf
530
100.
028
.148
010
0.0
25.0
509
100.
024
.552
710
0.0
23.5
37
Tran
spor
tre
fere
nce
scen
ario
f68
272
177
182
538
addi
tiona
lene
rgy
effic
ienc
yf68
210
0.0
36.2
720
100.
037
.574
410
0.0
35.8
768
100.
034
.339
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f18
8419
2121
5023
8040
addi
tiona
lene
rgy
effic
ienc
yf18
8410
0.0
1919
100.
020
8010
0.0
2240
100.
041
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
1661
1744
1952
2159
42ad
ditio
nale
nerg
yef
ficie
ncyf
1661
88.2
1742
90.8
1884
90.6
2023
90.3
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
2.9
4.9
7.4
13.0
26a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
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Latvia 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
2942253
97.118.4
43.56.0
2906250
95.718.9
42.86.2
2965255
76.916.3
39.55.8
3051262
58.813.7
35.25.5
67G
eothermal
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
69Solarphotovoltaic
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
10
0.00.0
0.00.0
40
0.10.0
0.00.0
71C
oncentratedsolarpow
ern.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.071
Solar(subtotal)0
00.0
0.00.0
0.00
00.0
0.00.0
0.01
00.0
0.00.0
0.04
00.1
0.00.0
0.071
Tidal,wave
andocean
energyn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.073
Onshore
wind
474
1.60.3
0.70.1
585
1.90.4
0.90.1
22820
5.91.3
3.00.4
51945
10.02.3
6.00.9
75O
ffshorew
indn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0391
347.5
1.84.5
0.775
Wind
power(subtotal)
474
1.60.3
0.70.1
585
1.90.4
0.90.1
22820
5.91.3
3.00.4
91078
17.54.1
10.51.6
75Solid
biomass
50
0.20.0
0.10.0
81
0.30.1
0.10.0
27123
7.01.5
3.60.5
64255
12.42.9
7.41.2
77B
iogas36
31.2
0.20.5
0.164
62.1
0.40.9
0.1393
3410.2
2.25.2
0.8584
5011.3
2.66.7
1.077
Bioliquids
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
77B
iomass
(subtotal)41
41.4
0.30.6
0.172
62.4
0.51.1
0.2664
5717.2
3.78.8
1.31226
10523.6
5.514.1
2.277
Total(accordingto
Template
Tables10a/b)
3030261
100.018.9
44.86.1
3036261
100.019.8
44.76.5
3858332
100.021.3
51.47.6
5191446
100.023.3
59.89.3
-Sum
ofalltechnologies(Tem
plateTables
10a/b)3030
261100.0
18.944.8
6.13036
261100.0
19.844.7
6.53858
332100.0
21.351.4
7.65191
446100.0
23.359.8
9.3-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)261
100.219.0
44.96.2
261100.0
19.844.7
6.5332
100.121.3
51.47.6
44699.9
23.359.8
9.346
–49
Heating
andcooling
Geotherm
aln.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.078
Solarthermal
00.0
0.00.0
0.00
0.00.0
0.00.0
10.1
0.10.0
0.02
0.10.1
0.10.0
79Solid
biomass
111399.9
80.842.7
26.21013
99.376.7
45.025.1
113996.5
73.047.0
26.01343
96.270.0
51.428.0
80B
iogas1
0.10.1
0.00.0
70.7
0.50.3
0.239
3.32.5
1.60.9
493.5
2.61.9
1.080
Bioliquids
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
80B
iomass
(subtotal)1114
100.080.9
42.726.3
1020100.0
77.345.3
25.31178
99.875.5
48.626.9
139299.7
72.653.3
29.080
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)0
0.00.0
0.00.0
00.0
0.00.0
0.02
0.20.1
0.10.0
40.3
0.20.2
0.181
Total(accordingto
Template
Table11)
1114100.0
80.942.7
26.31020
100.077.3
45.325.3
1180100.0
75.648.7
26.91396
100.072.8
53.429.1
-Sum
ofalltechnologies(Tem
plateTable
11)1114
100.080.9
42.726.3
1020100.0
77.345.3
25.31181
100.175.7
48.726.9
1398100.1
72.953.5
29.1-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
1114100.0
80.942.7
26.31020
100.077.3
45.325.3
117999.9
75.648.6
26.91395
99.972.7
53.429.1
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
1433.3
1.11.3
0.319
35.81.2
1.60.4
1821.7
0.91.4
0.482
Biodiesel
342.9
0.20.3
0.125
59.51.9
2.30.6
2037.7
1.31.7
0.528
33.71.5
2.20.6
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity4
57.10.3
0.40.1
37.1
0.20.3
0.15
9.40.3
0.40.1
67.2
0.30.5
0.185
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
917.0
0.60.8
0.231
37.31.6
2.40.6
86Total(according
toTem
plateTable
12)7
100.00.5
0.70.2
42100.0
3.23.8
1.053
100.03.4
4.41.2
83100.0
4.36.4
1.7-
Sumofalltechnologies
(Template
Table12)
7100.0
0.50.7
0.242
100.03.2
3.81.0
53100.0
3.44.4
1.283
100.04.3
6.41.7
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
7100.0
0.50.7
0.242
100.03.2
3.81.0
53100.0
3.44.4
1.283
100.04.3
6.41.7
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
9128.6
0.70.9
0.244
104.83.3
4.01.1
56105.7
3.64.7
1.3130
156.66.8
10.02.7
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)1377
100.0140.2
32.51320
100.0120.4
32.71560
100.0130.1
35.61918
100.0147.7
40.046
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
1378100.0
140.332.5
1320100.0
120.432.7
1560100.0
130.135.6
1919100.1
147.840.0
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
1382140.7
32.61323
120.732.8
1566130.6
35.71927
148.440.2
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countriesn.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.046
–49
TransfertootherM
emberStates
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
1377100.0
140.232.5
1320100.0
120.432.7
1560100.0
130.135.6
1918100.0
147.740.0
46–
49
FinalE
lectricityreference
scenariof
581588
686860
34consum
ptionadditionalenergy
efficiencyf
581100.0
13.7584
100.014.5
646100.0
14.7746
100.015.6
35
Heating
andcooling
referencescenario
f2607
22712604
311436
additionalenergyefficiency
f2607
100.061.5
2251100.0
55.82425
100.055.3
2612100.0
54.537
Transportreference
scenariof
9821099
12121320
38additionalenergy
efficiencyf
982100.0
23.21096
100.027.2
1199100.0
27.41299
100.027.1
39
Totalbeforeaviation
reductionreference
scenariof
42414060
46155434
40additionalenergy
efficiencyf
4241100.0
4033100.0
4383100.0
4796100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g32.6
34.135.9
40.027
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
100 ECN-E--10-069
28 NOV 2011 Lithuania
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
451
3998
.05.
33.
90.
843
237
49.3
4.7
4.1
0.7
446
3820
.83.
43.
70.
747
040
15.9
2.7
3.4
0.7
67G
eoth
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0.1
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71C
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0.0
0.0
0.0
0.0
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0.0
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0.0
0.0
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75W
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297
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.93.
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592
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43.1
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253
346
24.9
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4.4
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81.
177
Bio
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40
0.9
0.0
0.0
0.0
504
5.7
0.5
0.5
0.1
228
2010
.61.
71.
90.
341
336
14.0
2.4
3.0
0.6
77B
ioliq
uids
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
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0.0
0.0
0.0
77B
iom
ass
(sub
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2310
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460
4010
0.0
5.4
4.0
0.8
876
7510
0.0
9.5
8.3
1.5
2143
184
100.
016
.117
.63.
329
5825
410
0.0
17.3
21.3
4.2
-Su
mof
allt
echn
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ies
(Tem
plat
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10a/
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040
100.
05.
44.
00.
887
675
100.
09.
58.
31.
521
4418
410
0.0
16.1
17.6
3.3
2958
254
100.
017
.321
.34.
2-
Gro
ssfin
alR
ES-
Eco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)38
96.1
5.2
3.9
0.8
7498
.29.
38.
11.
518
298
.815
.917
.43.
225
499
.917
.221
.34.
246
–49
Hea
ting
and
cool
ing
Geo
ther
mal
20.
30.
30.
10.
03
0.5
0.4
0.1
0.1
40.
40.
40.
20.
15
0.5
0.3
0.2
0.1
78So
lart
herm
al0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
05
0.6
0.4
0.2
0.1
90.
90.
60.
30.
179
Solid
biom
ass
685
99.6
93.8
26.5
14.0
657
98.6
82.6
27.2
13.1
851
95.2
74.5
32.7
15.2
973
92.6
66.0
36.3
16.0
80B
ioga
s1
0.1
0.1
0.0
0.0
60.
90.
80.
20.
128
3.1
2.5
1.1
0.5
504.
83.
41.
90.
880
Bio
liqui
ds0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
080
Bio
mas
s(s
ubto
tal)
686
99.7
94.0
26.6
14.0
663
99.5
83.4
27.4
13.2
879
98.3
77.0
33.8
15.7
1023
97.3
69.4
38.1
16.8
80A
erot
herm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81G
eoth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81H
ydro
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
081
Ren
ewab
leen
ergy
from
heat
pum
ps(s
ubto
tal)
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
60.
70.
50.
20.
114
1.3
0.9
0.5
0.2
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
688
100.
094
.226
.614
.066
610
0.0
83.8
27.6
13.2
894
100.
078
.334
.415
.910
5110
0.0
71.3
39.2
17.3
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
ble
11)
688
100.
094
.226
.614
.066
610
0.0
83.8
27.6
13.2
894
100.
078
.334
.415
.910
5110
0.0
71.3
39.2
17.3
-G
ross
final
RE
S-H
/Cco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)68
810
0.0
94.2
26.6
14.0
666
100.
083
.827
.613
.284
995
.074
.332
.615
.110
5110
0.0
71.3
39.2
17.3
46–
49Tr
ansp
ort
Bio
etha
nol/
bio-
ET
BE
125
.00.
10.
10.
013
23.2
1.6
1.0
0.3
3026
.52.
62.
00.
536
20.8
2.4
2.1
0.6
82B
iodi
esel
375
.00.
40.
30.
142
75.0
5.3
3.2
0.8
7969
.96.
95.
21.
413
175
.78.
97.
62.
283
Hyd
roge
nfr
omre
new
able
s0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
084
Ren
ewab
leel
ectr
icity
00.
00.
00.
00.
00
0.5
0.0
0.0
0.0
21.
40.
10.
10.
03
1.4
0.2
0.1
0.0
85O
ther
biof
uels
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
86To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
12)
410
0.0
0.5
0.4
0.1
5610
0.0
7.0
4.2
1.1
113
100.
09.
97.
42.
017
310
0.0
11.7
10.0
2.8
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
ble
12)
410
0.0
0.5
0.4
0.1
5598
.87.
04.
11.
111
197
.99.
77.
22.
017
098
.011
.59.
82.
8-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)4
100.
00.
50.
40.
155
98.2
6.9
4.1
1.1
111
98.2
9.7
7.3
2.0
169
97.7
11.5
9.7
2.8
46–
49R
ES-
Tin
clud
ing
Art
icle
21.2
(Tem
plat
eTa
ble
4b)e
410
0.0
0.5
0.4
0.1
5598
.26.
94.
11.
111
310
0.0
9.9
7.4
2.0
173
100.
011
.710
.02.
846
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)73
010
0.0
64.4
14.9
795
100.
059
.615
.811
4210
0.0
74.8
20.4
1474
100.
085
.024
.246
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)73
210
0.2
64.6
14.9
797
100.
359
.815
.811
9010
4.2
77.9
21.2
1476
100.
185
.124
.3-
Sum
allt
echn
olog
ies
inTe
mpl
ate
Tabl
es10
a/b,
11,1
273
264
.614
.979
759
.815
.811
8977
.921
.214
7585
.124
.2-
Co-
oper
atio
nm
echa
nism
sTr
ansf
erfr
omot
herM
embe
rSta
tes
and
thir
dco
untr
ies
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
46–
49Tr
ansf
erto
othe
rMem
berS
tate
s0
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
All
RE
Sin
cl.c
o-op
erat
ion
mec
h.To
tal(
Tem
plat
eTa
ble
4a)
730
100.
064
.414
.979
510
0.0
59.6
15.8
1142
100.
074
.820
.414
7410
0.0
85.0
24.2
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f98
591
310
5312
0434
cons
umpt
ion
addi
tiona
lene
rgy
effic
ienc
yf98
510
0.0
20.1
911
100.
018
.110
4810
0.0
18.7
1193
100.
019
.635
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
2583
2417
2697
2886
36ad
ditio
nale
nerg
yef
ficie
ncyf
2583
100.
052
.624
1710
0.0
48.0
2601
100.
046
.426
8410
0.0
44.1
37
Tran
spor
tre
fere
nce
scen
ario
f11
3313
3615
5418
1738
addi
tiona
lene
rgy
effic
ienc
yf11
3310
0.0
23.1
1333
100.
026
.515
2710
0.0
27.2
1734
100.
028
.539
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f49
0750
3456
9862
9640
addi
tiona
lene
rgy
effic
ienc
yf49
0710
0.0
5031
100.
056
1010
0.0
6084
100.
041
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
n.a.
n.a.
n.a.
n.a.
42ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
15.0
16.6
18.6
23.0
27a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 101
Luxembourg 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
988
45.821.1
1.50.2
1079
41.810.3
1.70.2
1079
19.04.0
1.70.2
12411
15.92.2
1.90.2
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
69Solarphotovoltaic
182
8.43.9
0.30.0
202
7.81.9
0.30.0
656
11.52.4
1.00.1
847
10.81.5
1.30.2
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)18
28.4
3.90.3
0.020
27.8
1.90.3
0.065
611.5
2.41.0
0.184
710.8
1.51.3
0.271
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.073
Onshore
wind
524
24.311.2
0.80.1
605
23.45.8
0.90.1
19217
34.07.1
3.00.4
23921
30.64.2
3.60.5
75O
ffshorew
ind0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.075
Wind
power(subtotal)
524
24.311.2
0.80.1
605
23.45.8
0.90.1
19217
34.07.1
3.00.4
23921
30.64.2
3.60.5
75Solid
biomass
192
8.94.1
0.30.0
252
9.82.4
0.40.1
777
13.72.9
1.20.2
19016
24.43.4
2.90.4
77B
iogas27
212.6
5.80.4
0.144
417.2
4.30.7
0.1123
1121.8
4.61.9
0.2144
1218.5
2.62.2
0.377
Bioliquids
n.a.n.a.
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
77B
iomass
(subtotal)46
421.5
9.90.7
0.170
627.3
6.81.1
0.1200
1735.5
7.43.2
0.4334
2942.8
5.95.0
0.677
Total(accordingto
Template
Tables10a/b)
21418
100.046.0
3.20.4
25622
100.024.7
4.00.5
56448
100.021.0
8.91.1
78067
100.013.9
11.81.5
-Sum
ofalltechnologies(Tem
plateTables
10a/b)214
18100.0
46.03.2
0.4257
22100.4
24.84.0
0.5564
48100.0
21.08.9
1.1781
67100.1
13.911.8
1.5-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)18
97.845.0
3.20.4
2299.9
24.74.0
0.549
101.021.2
9.01.1
6799.9
13.811.8
1.546
–49
Heating
andcooling
Geotherm
aln.a.
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.078
Solarthermal
00.0
0.00.0
0.01
3.81.1
0.10.0
23.5
0.90.2
0.08
7.41.7
0.60.2
79Solid
biomass
1680.0
40.01.3
0.319
73.121.3
1.50.4
3968.4
16.93.2
0.970
64.814.5
5.51.5
80B
iogas3
15.07.5
0.30.1
519.2
5.60.4
0.112
21.15.2
1.00.3
1312.0
2.71.0
0.380
Bioliquids
n.a.0.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
80B
iomass
(subtotal)19
95.047.5
1.60.4
2492.3
27.01.9
0.651
89.522.1
4.11.2
8376.9
17.16.5
1.880
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)0
0.00.0
0.00.0
13.8
1.10.1
0.04
7.01.7
0.30.1
1715.7
3.51.3
0.481
Total(accordingto
Template
Table11)
20100.0
50.01.7
0.426
100.029.2
2.10.6
57100.0
24.74.6
1.3108
100.022.3
8.52.4
-Sum
ofalltechnologies(Tem
plateTable
11)19
95.047.5
1.60.4
26100.0
29.22.1
0.657
100.024.7
4.61.3
108100.0
22.38.5
2.4-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
20100.0
50.01.7
0.426
100.029.2
2.10.6
57100.0
24.74.6
1.3108
100.022.3
8.52.4
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
511.6
5.60.2
0.19
10.73.9
0.40.2
2310.2
4.81.0
0.582
Biodiesel
150.0
2.50.0
0.037
86.041.6
1.80.9
7285.7
31.23.3
1.6193
85.439.9
8.34.3
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity1
50.02.5
0.00.0
24.7
2.20.1
0.04
4.81.7
0.20.1
104.4
2.10.4
0.285
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)2
100.05.0
0.10.0
43100.0
48.32.1
1.084
100.036.4
3.81.9
226100.0
46.79.7
5.0-
Sumofalltechnologies
(Template
Table12)
2100.0
5.00.1
0.044
102.349.4
2.11.0
85101.2
36.83.8
1.9226
100.046.7
9.75.0
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
2100.0
5.00.1
0.043
100.048.3
2.11.0
84100.0
36.43.8
1.9226
100.046.7
9.75.0
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
2100.0
5.00.1
0.043
100.048.3
2.11.0
85101.2
36.83.8
1.9234
103.548.3
10.05.2
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)40
100.01.7
0.989
100.04.3
2.1186
80.58.4
4.2391
80.816.8
8.646
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
3998.5
1.60.9
89100.0
4.32.1
18580.3
8.44.2
39180.8
16.88.6
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
391.6
0.992
4.42.2
1908.6
4.3401
17.28.9
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countriesn.a.
0.00.0
0.00
0.00.0
0.045
19.52.0
1.093
19.24.0
2.146
–49
TransfertootherM
emberStates
n.a.0.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
40100.0
1.70.9
89100.0
4.32.1
231100.0
10.45.3
484100.0
20.710.7
46–
49
FinalE
lectricityreference
scenariof
567553
568602
34consum
ptionadditionalenergy
efficiencyf
567100.0
12.3549
100.012.8
544100.0
12.4569
100.012.6
35
Heating
andcooling
referencescenario
f1189
12931344
143636
additionalenergyefficiency
f1189
100.025.8
1235100.0
28.91234
100.028.1
1268100.0
28.037
Transportreference
scenariof
24162309
24482584
38additionalenergy
efficiencyf
2416100.0
52.52086
100.048.8
2211100.0
50.42334
100.051.5
39
Totalbeforeaviation
reductionreference
scenariof
46054558
47605019
40additionalenergy
efficiencyf
4605100.0
4273100.0
4386100.0
4530100.0
41
Totalafteraviationreduction
referencescenario
f4457
44264641
491542
additionalenergyefficiency
f4457
96.84123
96.54243
96.74396
97.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g0.9
2.95.4
11.027
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
102 ECN-E--10-069
28 NOV 2011 Hungary
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
00
0.0
0.0
0.0
0.0
194
176.
81.
20.
50.
119
617
5.1
1.0
0.4
0.1
238
204.
30.
70.
50.
167
Geo
ther
mal
n.a.
n.a.
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
292
0.7
0.2
0.1
0.0
410
357.
31.
20.
80.
269
Sola
rpho
tovo
ltaic
n.a.
n.a.
0.0
0.0
0.0
0.0
20
0.1
0.0
0.0
0.0
262
0.7
0.1
0.1
0.0
817
1.4
0.2
0.2
0.0
71C
once
ntra
ted
sola
rpow
ern.
a.n.
a.0.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
071
Sola
r(su
btot
al)
00
0.0
0.0
0.0
0.0
20
0.1
0.0
0.0
0.0
262
0.7
0.1
0.1
0.0
817
1.4
0.2
0.2
0.0
71Ti
dal,
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a.n.
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00
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00.
073
Ons
hore
win
dn.
a.n.
a.0.
00.
00.
00.
069
260
24.3
4.4
1.6
0.3
1377
118
35.5
7.2
2.9
0.6
1545
133
27.6
4.6
3.0
0.7
75O
ffsh
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win
dn.
a.n.
a.0.
00.
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00.
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00
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00.
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Win
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wer
(sub
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l)0
00.
00.
00.
00.
069
260
24.3
4.4
1.6
0.3
1377
118
35.5
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1545
133
27.6
4.6
3.0
0.7
75So
lidbi
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a.0.
00.
00.
00.
018
7016
165
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919
8817
151
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20.
926
8823
148
.08.
05.
21.
277
Bio
gas
n.a.
n.a.
0.0
0.0
0.0
0.0
857
3.0
0.5
0.2
0.0
262
236.
81.
40.
50.
163
655
11.4
1.9
1.2
0.3
77B
ioliq
uids
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
77B
iom
ass
(sub
tota
l)0
00.
00.
00.
00.
019
5516
868
.812
.54.
60.
922
5019
358
.011
.74.
71.
033
2428
659
.49.
96.
51.
577
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
es10
a/b)
n.a.
n.a.
0.0
0.0
0.0
0.0
2843
244
100.
018
.26.
71.
338
7833
310
0.0
20.2
8.1
1.7
5597
481
100.
016
.710
.92.
4-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
es10
a/b)
00
0.0
0.0
0.0
0.0
2843
244
100.
018
.26.
71.
338
7833
310
0.0
20.2
8.1
1.7
5598
481
100.
016
.710
.92.
5-
Gro
ssfin
alR
ES-
Eco
nsum
ptio
n(T
empl
ate
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)n.
a.0.
00.
00.
00.
024
499
.818
.26.
61.
333
399
.920
.28.
11.
748
199
.916
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.92.
446
–49
Hea
ting
and
cool
ing
Geo
ther
mal
n.a.
0.0
0.0
0.0
0.0
101
10.6
7.5
1.0
0.6
147
14.0
8.9
1.4
0.7
357
19.2
12.4
3.6
1.8
78So
lart
herm
aln.
a.0.
00.
00.
00.
06
0.6
0.4
0.1
0.0
313.
01.
90.
30.
282
4.4
2.8
0.8
0.4
79So
lidbi
omas
sn.
a.0.
00.
00.
00.
081
285
.660
.47.
74.
480
076
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.57.
44.
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2565
.842
.512
.46.
280
Bio
gas
n.a.
0.0
0.0
0.0
0.0
00.
00.
00.
00.
030
2.9
1.8
0.3
0.2
563.
01.
90.
60.
380
Bio
liqui
dsn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
080
Bio
mas
s(s
ubto
tal)
00.
00.
00.
00.
081
285
.660
.47.
74.
483
079
.150
.47.
74.
212
8168
.844
.513
.06.
580
Aer
othe
rmal
heat
pum
psn.
a.0.
00.
00.
00.
00
0.0
0.0
0.0
0.0
20.
20.
10.
00.
07
0.4
0.2
0.1
0.0
81G
eoth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
50.
50.
40.
00.
028
2.7
1.7
0.3
0.1
107
5.7
3.7
1.1
0.5
81H
ydro
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
01
0.1
0.1
0.0
0.0
70.
70.
40.
10.
029
1.6
1.0
0.3
0.1
81R
enew
able
ener
gyfr
omhe
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l)0
0.0
0.0
0.0
0.0
60.
60.
40.
10.
037
3.5
2.2
0.3
0.2
143
7.7
5.0
1.4
0.7
81To
tal(
acco
rdin
gto
Tem
plat
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ble
11)
n.a.
0.0
0.0
0.0
0.0
949
100.
070
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210
4910
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63.7
9.8
5.3
1863
100.
064
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5-
Sum
ofal
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ogie
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empl
ate
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e11
)0
0.0
0.0
0.0
0.0
925
97.5
68.8
8.8
5.1
1045
99.6
63.4
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5.3
1863
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Gro
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0.0
0.0
0.0
0.0
949
100.
070
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05.
210
4910
0.0
63.7
9.8
5.3
1863
100.
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546
–49
Tran
spor
tB
ioet
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o-E
TB
E5
100.
00.
00.
10.
034
22.7
2.5
0.8
0.2
106
39.8
6.4
2.2
0.5
304
56.8
10.6
5.7
1.5
82B
iodi
esel
00.
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073
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Hyd
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0.0
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084
Ren
ewab
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00.
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124
4.5
0.8
0.4
0.1
85O
ther
biof
uels
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
10.
40.
10.
00.
05
0.9
0.2
0.1
0.0
86To
tal(
acco
rdin
gto
Tem
plat
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ble
12)
510
0.0
0.0
0.1
0.0
150
100.
011
.23.
70.
826
610
0.0
16.1
5.4
1.3
535
100.
018
.610
.02.
7-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)5
100.
00.
00.
10.
015
010
0.0
11.2
3.7
0.8
266
100.
016
.15.
41.
353
510
0.0
18.6
10.0
2.7
-G
ross
final
RE
S-T
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
n.a.
0.0
0.0
0.0
0.0
150
100.
011
.23.
70.
826
610
0.0
16.1
5.4
1.3
535
100.
018
.610
.02.
746
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e5
100.
00.
00.
10.
017
711
8.0
13.2
4.3
1.0
310
116.
518
.86.
31.
659
811
1.8
20.8
11.2
3.0
46–
49A
llR
ES
excl
.co-
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atio
nm
ech.
Gro
ssfin
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umpt
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(Tem
plat
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n.a.
0.0
0.0
0.0
1344
100.
032
.97.
416
4810
0.0
33.5
8.3
2879
100.
053
.814
.746
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)5
0.0
0.1
0.0
1337
99.5
32.8
7.3
1633
99.1
33.2
8.3
2855
99.2
53.4
14.5
-Su
mal
ltec
hnol
ogie
sin
Tem
plat
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bles
10a/
b,11
,12
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All
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27a
The
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The
perc
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wab
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chno
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loft
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ener
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nsum
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n(‘
Add
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ergy
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ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
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ktoe
]’an
dex
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Add
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see
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ehi
ghlig
hted
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ld).
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rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
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wab
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ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
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09D
0548
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:NO
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ECN-E--10-069 103
Malta 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
67G
eothermal
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
69Solarphotovoltaic
n.a.n.a.
0.00.0
0.00.0
61
41.66.8
0.20.1
414
20.713.0
1.40.6
434
9.96.7
1.40.6
71C
oncentratedsolarpow
ern.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.071
Solar(subtotal)0
00.0
0.00.0
0.06
141.6
6.80.2
0.141
420.7
13.01.4
0.643
49.9
6.71.4
0.671
Tidal,wave
andocean
energyn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.073
Onshore
wind
n.a.n.a.
0.00.0
0.00.0
00
0.10.0
0.00.0
172
8.85.5
0.60.3
383
8.96.0
1.20.5
75O
ffshorew
indn.a.
n.a.0.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.0216
1950.0
34.16.9
3.175
Wind
power(subtotal)
00
0.00.0
0.00.0
00
0.10.0
0.00.0
172
8.85.5
0.60.3
25522
58.840.2
8.13.6
75Solid
biomass
n.a.n.a.
0.00.0
0.00.0
00
0.00.0
0.00.0
867
43.127.1
3.01.3
867
19.813.5
2.71.2
77B
iogasn.a.
n.a.0.0
0.00.0
0.09
158.3
9.60.3
0.154
527.4
17.21.9
0.850
411.5
7.91.6
0.777
Bioliquids
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
77B
iomass
(subtotal)0
00.0
0.00.0
0.09
158.3
9.60.3
0.1140
1270.5
44.44.9
2.1135
1231.3
21.44.3
1.977
Total(accordingto
Template
Tables10a/b)
n.a.n.a.
0.00.0
0.00.0
151
100.016.4
0.60.3
19817
100.062.9
7.03.0
43337
100.068.3
13.86.2
-Sum
ofalltechnologies(Tem
plateTables
10a/b)0
00.0
0.00.0
0.015
199.9
16.40.6
0.3198
17100.0
62.97.0
3.0433
37100.0
68.313.8
6.2-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)n.a.
0.00.0
0.00.0
1101.5
16.70.6
0.317
100.363.1
7.03.0
37100.0
68.313.8
6.246
–49
Heating
andcooling
Geotherm
aln.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.078
Solarthermal
n.a.0.0
0.00.0
0.03
71.432.3
5.60.5
355.4
10.14.3
0.53
61.75.1
3.80.5
79Solid
biomass
n.a.0.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
80B
iogasn.a.
0.00.0
0.00.0
128.6
12.92.3
0.22
44.68.2
3.50.4
238.5
3.22.4
0.380
Bioliquids
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
80B
iomass
(subtotal)0
0.00.0
0.00.0
128.6
12.92.3
0.22
44.68.2
3.50.4
238.5
3.22.4
0.380
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)0
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.081
Total(accordingto
Template
Table11)
n.a.0.0
0.00.0
0.04
100.045.3
7.90.7
5100.0
18.37.9
0.94
100.08.2
6.10.7
-Sum
ofalltechnologies(Tem
plateTable
11)0
0.00.0
0.00.0
4100.0
45.37.9
0.75
100.018.3
7.90.9
4100.2
8.26.2
0.7-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
n.a.0.0
0.00.0
0.04
99.244.9
7.80.7
599.0
18.17.8
0.95
100.78.3
6.20.7
46–
49Transport
Bioethanol/bio-E
TB
En.a.
0.00.0
0.00.0
258.7
22.41.1
0.34
71.913.8
2.40.7
642.8
10.63.5
1.082
Biodiesel
n.a.0.0
0.00.0
0.01
41.315.8
0.80.2
125.4
4.90.8
0.27
52.012.9
4.31.2
83H
ydrogenfrom
renewables
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
84R
enewable
electricityn.a.
0.00.0
0.00.0
00.0
0.00.0
0.00
2.70.5
0.10.0
15.2
1.30.4
0.185
Otherbiofuels
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)n.a.
0.00.0
0.00.0
3100.0
38.22.0
0.65
100.019.2
3.30.9
14100.0
24.88.2
2.2-
Sumofalltechnologies
(Template
Table12)
00.0
0.00.0
0.03
100.038.2
2.00.6
5100.0
19.23.3
0.914
100.024.8
8.22.2
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
n.a.0.0
0.00.0
0.03
100.738.5
2.00.6
598.1
18.83.2
0.913
94.723.5
7.82.1
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
n.a.0.0
0.00.0
0.04
140.953.8
2.80.8
7128.8
24.74.2
1.218
130.932.5
10.72.9
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)n.a.
0.00.0
0.08
100.05.1
1.527
100.017.1
4.855
100.033.0
9.046
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
00.0
0.00.0
899.9
5.11.5
2799.9
17.04.8
55100.0
33.19.0
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
00.0
0.08
5.11.5
2717.1
4.955
33.59.2
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countriesn.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.046
–49
TransfertootherM
emberStates
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
n.a.0.0
0.00.0
8100.0
5.11.5
27100.0
17.14.8
55100.0
33.09.0
46–
49
FinalE
lectricityreference
scenariof
n.a.226
258291
34consum
ptionadditionalenergy
efficiencyf
n.a.0.0
0.0215
100.042.5
244100.0
43.4270
100.044.8
35
Heating
andcooling
referencescenario
fn.a.
4666
7636
additionalenergyefficiency
fn.a.
0.00.0
45100.0
8.863
100.011.2
73100.0
12.137
Transportreference
scenariof
n.a.152
159165
38additionalenergy
efficiencyf
n.a.0.0
0.0152
100.030.1
159100.0
28.3165
100.027.3
39
Totalbeforeaviation
reductionreference
scenariof
n.a.517
577625
40additionalenergy
efficiencyf
n.a.0.0
506100.0
561100.0
603100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0434
85.6490
87.4534
88.643
TargetTransportfuels
target10.0
-O
verallrenewable
target g0.0
2.04.5
10.028
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
104 ECN-E--10-069
28 NOV 2011 Netherlands
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
100
91.
40.
60.
10.
012
711
1.2
0.5
0.1
0.0
184
160.
70.
40.
10.
018
416
0.4
0.2
0.1
0.0
67G
eoth
erm
al0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
069
Sola
rpho
tovo
ltaic
403
0.6
0.3
0.0
0.0
736
0.7
0.3
0.1
0.0
250
210.
90.
50.
20.
057
049
1.1
0.7
0.4
0.1
71C
once
ntra
ted
sola
rpow
er0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
071
Sola
r(su
btot
al)
403
0.6
0.3
0.0
0.0
736
0.7
0.3
0.1
0.0
250
210.
90.
50.
20.
057
049
1.1
0.7
0.4
0.1
71Ti
dal,
wav
ean
doc
ean
ener
gy0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
051
444
1.0
0.6
0.4
0.1
73O
nsho
rew
ind
2067
178
28.6
13.3
1.7
0.3
3667
315
34.5
14.8
3.0
0.6
9508
818
34.6
19.0
7.3
1.6
1337
211
5026
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82.
275
Off
shor
ew
ind
00
0.0
0.0
0.0
0.0
803
697.
53.
20.
60.
141
4735
715
.18.
33.
20.
719
036
1637
37.8
22.3
14.0
3.1
75W
ind
pow
er(s
ubto
tal)
2067
178
28.6
13.3
1.7
0.3
4470
384
42.0
18.1
3.6
0.8
1365
511
7449
.827
.310
.52.
332
408
2787
64.4
38.0
23.9
5.3
75So
lidbi
omas
s47
5840
965
.830
.64.
00.
851
0343
948
.020
.64.
10.
911
189
962
40.8
22.3
8.6
1.9
1197
510
3023
.814
.08.
82.
077
Bio
gas
283
243.
91.
80.
20.
087
275
8.2
3.5
0.7
0.1
2161
186
7.9
4.3
1.7
0.4
4664
401
9.3
5.5
3.4
0.8
77B
ioliq
uids
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
77B
iom
ass
(sub
tota
l)50
4143
369
.732
.44.
20.
859
7551
456
.224
.14.
81.
013
350
1148
48.6
26.7
10.2
2.2
1663
914
3133
.119
.512
.22.
777
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
es10
a/b)
7233
622
100.
046
.46.
01.
210
636
915
100.
043
.08.
61.
827
442
2360
100.
054
.821
.04.
650
317
4326
100.
058
.937
.08.
3-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
es10
a/b)
7248
623
100.
246
.56.
01.
210
645
915
100.
143
.08.
61.
827
439
2359
100.
054
.821
.04.
650
315
4326
100.
058
.937
.08.
3-
Gro
ssfin
alR
ES-
Eco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)62
210
0.0
46.5
6.0
1.2
915
100.
143
.08.
61.
823
6010
0.0
54.8
21.1
4.6
4326
100.
058
.937
.08.
346
–49
Hea
ting
and
cool
ing
Geo
ther
mal
00.
00.
00.
00.
039
4.3
1.8
0.2
0.1
130
9.4
3.0
0.5
0.3
259
11.9
3.5
1.0
0.5
78So
lart
herm
al16
2.2
1.2
0.1
0.0
202.
20.
90.
10.
017
1.2
0.4
0.1
0.0
231.
10.
30.
10.
079
Solid
biom
ass
540
75.3
40.3
1.9
1.0
573
63.2
26.9
2.3
1.1
604
43.8
14.0
2.5
1.2
650
29.8
8.9
2.6
1.2
80B
ioga
s69
9.6
5.2
0.2
0.1
111
12.3
5.2
0.5
0.2
174
12.6
4.0
0.7
0.3
288
13.2
3.9
1.2
0.6
80B
ioliq
uids
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
80B
io-S
NG
forg
rid
feed
-in
385.
32.
80.
10.
131
3.4
1.5
0.1
0.1
202
14.6
4.7
0.8
0.4
582
26.7
7.9
2.3
1.1
80B
iom
ass
(sub
tota
l)64
790
.248
.32.
31.
271
578
.933
.62.
91.
498
071
.022
.84.
01.
915
2069
.820
.76.
12.
980
Aer
othe
rmal
heat
pum
psn.
a.0.
00.
00.
00.
035
3.9
1.6
0.1
0.1
815.
91.
90.
30.
211
75.
41.
60.
50.
281
Geo
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
090
9.9
4.2
0.4
0.2
161
11.7
3.7
0.7
0.3
242
11.1
3.3
1.0
0.5
81H
ydro
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
00
0.0
0.0
0.0
0.0
30.
20.
10.
00.
011
0.5
0.1
0.0
0.0
81R
enew
able
ener
gyfr
omhe
atpu
mps
(sub
tota
l)54
7.5
4.0
0.2
0.1
132
14.6
6.2
0.5
0.3
252
18.3
5.9
1.0
0.5
377
17.3
5.1
1.5
0.7
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
717
100.
053
.52.
51.
390
610
0.0
42.6
3.7
1.8
1380
100.
032
.05.
62.
721
7910
0.0
29.7
8.7
4.2
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
ble
11)
717
100.
053
.52.
51.
390
610
0.0
42.6
3.7
1.8
1379
99.9
32.0
5.6
2.7
2179
100.
029
.78.
74.
2-
Gro
ssfin
alR
ES-
H/C
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
717
100.
053
.52.
51.
390
610
0.0
42.6
3.7
1.8
1380
100.
032
.05.
62.
721
7910
0.0
29.7
8.7
4.2
46–
49Tr
ansp
ort
Bio
etha
nol/
bio-
ET
BE
00.
00.
00.
00.
016
852
.77.
91.
40.
321
736
.75.
01.
90.
428
231
.23.
82.
70.
582
Bio
dies
el0
0.0
0.0
0.0
0.0
139
43.6
6.5
1.2
0.3
350
59.2
8.1
3.1
0.7
552
61.0
7.5
5.2
1.1
83H
ydro
gen
from
rene
wab
les
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
84R
enew
able
elec
tric
ity8
100.
00.
60.
10.
012
3.8
0.6
0.1
0.0
233.
90.
50.
20.
071
7.8
1.0
0.7
0.1
85O
ther
biof
uels
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
86To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
12)
810
0.0
0.6
0.1
0.0
319
100.
015
.02.
70.
659
110
0.0
13.7
5.2
1.1
905
100.
012
.38.
51.
7-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)8
100.
00.
60.
10.
031
910
0.0
15.0
2.7
0.6
590
99.8
13.7
5.2
1.1
905
100.
012
.38.
51.
7-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)8
100.
00.
60.
10.
031
910
0.0
15.0
2.7
0.6
591
100.
013
.75.
21.
190
510
0.0
12.3
8.5
1.7
46–
49R
ES-
Tin
clud
ing
Art
icle
21.2
(Tem
plat
eTa
ble
4b)e
810
0.0
0.6
0.1
0.0
475
148.
922
.34.
10.
968
511
5.9
15.9
6.0
1.3
1097
121.
214
.910
.32.
146
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)13
3910
0.0
11.8
2.5
2128
100.
018
.24.
243
0710
0.0
37.7
8.3
7340
100.
069
.014
.146
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)13
3910
0.0
11.8
2.5
2128
100.
018
.24.
243
0810
0.0
37.7
8.3
7339
100.
069
.014
.1-
Sum
allt
echn
olog
ies
inTe
mpl
ate
Tabl
es10
a/b,
11,1
213
4811
.92.
521
4018
.34.
243
2837
.98.
474
1069
.714
.2-
Co-
oper
atio
nm
echa
nism
sTr
ansf
erfr
omot
herM
embe
rSta
tes
and
thir
dco
untr
ies
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
46–
49Tr
ansf
erto
othe
rMem
berS
tate
s0
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
All
RE
Sin
cl.c
o-op
erat
ion
mec
h.To
tal(
Tem
plat
eTa
ble
4a)
1339
100.
011
.82.
521
2810
0.0
18.2
4.2
4307
100.
037
.78.
373
4010
0.0
69.0
14.1
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f10
347
n.a.
n.a.
n.a.
34co
nsum
ptio
nad
ditio
nale
nerg
yef
ficie
ncyf
1034
710
0.0
19.2
1062
710
0.0
20.8
1121
010
0.0
21.7
1168
110
0.0
22.4
35
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
2843
6n.
a.n.
a.n.
a.36
addi
tiona
lene
rgy
effic
ienc
yf28
436
100.
052
.624
612
100.
048
.324
618
100.
047
.624
989
100.
048
.037
Tran
spor
tre
fere
nce
scen
ario
f11
351
n.a.
n.a.
n.a.
38ad
ditio
nale
nerg
yef
ficie
ncyf
1135
110
0.0
21.0
1169
910
0.0
22.9
1141
910
0.0
22.1
1063
410
0.0
20.4
39
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f54
010
n.a.
n.a.
n.a.
40ad
ditio
nale
nerg
yef
ficie
ncyf
5401
010
0.0
5100
810
0.0
5169
810
0.0
5208
810
0.0
41
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
5371
7n.
a.n.
a.n.
a.42
addi
tiona
lene
rgy
effic
ienc
yf53
717
99.5
5024
098
.550
554
97.8
5053
297
.043
Targ
etTr
ansp
ortf
uels
targ
et10
.0-
Ove
rall
rene
wab
leta
rgetg
2.4
4.7
7.6
14.0
28a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 105
Austria 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
371253192
89.947.4
55.811.6
385423314
84.941.7
58.812.9
394233390
81.840.4
58.313.0
421123621
80.439.1
56.813.4
67G
eothermal
20
0.00.0
0.00.0
20
0.00.0
0.00.0
20
0.00.0
0.00.0
20
0.00.0
0.00.0
69Solarphotovoltaic
212
0.10.0
0.00.0
857
0.20.1
0.10.0
17015
0.40.2
0.30.1
30626
0.60.3
0.40.1
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)21
20.1
0.00.0
0.085
70.2
0.10.1
0.0170
150.4
0.20.3
0.1306
260.6
0.30.4
0.171
Tidal,wave
andocean
energyn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.073
Onshore
wind
1343115
3.31.7
2.00.4
2034175
4.52.2
3.10.7
3780325
7.83.9
5.61.2
4811414
9.24.5
6.51.5
75O
ffshorew
ind0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.075
Wind
power(subtotal)
1343115
3.31.7
2.00.4
2034175
4.52.2
3.10.7
3780325
7.83.9
5.61.2
4811414
9.24.5
6.51.5
75Solid
biomass
2507216
6.13.2
3.80.8
4131355
9.14.5
6.31.4
4223363
8.84.3
6.21.4
4530390
8.64.2
6.11.4
77B
iogas283
240.7
0.40.4
0.1553
481.2
0.60.8
0.2567
491.2
0.60.8
0.2581
501.1
0.50.8
0.277
Bioliquids
333
0.10.0
0.00.0
363
0.10.0
0.10.0
363
0.10.0
0.10.0
363
0.10.0
0.00.0
77B
iomass
(subtotal)2823
2436.8
3.64.2
0.94720
40610.4
5.17.2
1.64826
41510.0
4.97.1
1.65147
4439.8
4.86.9
1.677
Total(accordingto
Template
Tables10a/b)
413143552
100.052.7
62.112.9
453833902
100.049.1
69.315.2
482004144
100.049.4
71.215.9
523774504
100.048.6
70.616.6
-Sum
ofalltechnologies(Tem
plateTables
10a/b)41314
3552100.0
52.762.1
12.945383
3902100.0
49.169.3
15.248201
4145100.0
49.471.2
15.952378
4504100.0
48.670.6
16.6-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)3480
98.051.7
60.812.6
3902100.0
49.169.3
15.24144
100.049.4
71.215.9
4503100.0
48.670.6
16.646
–49
Heating
andcooling
Geotherm
al19
0.60.3
0.10.1
190.5
0.20.2
0.127
0.70.3
0.20.1
401.0
0.40.3
0.178
Solarthermal
922.9
1.40.7
0.3127
3.51.6
1.10.5
1814.8
2.21.5
0.7269
6.42.9
2.11.0
79Solid
biomass
302594.1
44.922.9
11.03400
93.042.8
28.313.2
344790.5
41.128.2
13.23591
85.938.8
28.113.2
80B
iogas8
0.20.1
0.10.0
150.4
0.20.1
0.116
0.40.2
0.10.1
160.4
0.20.1
0.180
Bioliquids
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
80B
iomass
(subtotal)3033
94.445.0
23.011.0
341593.4
42.928.4
13.33463
90.941.3
28.413.3
360786.3
38.928.2
13.380
Aerotherm
alheatpumps
00.0
0.00.0
0.038
1.00.5
0.30.1
551.4
0.70.5
0.2105
2.51.1
0.80.4
81G
eothermalheatpum
ps0
0.00.0
0.00.0
100.3
0.10.1
0.014
0.40.2
0.10.1
260.6
0.30.2
0.181
Hydrotherm
alheatpumps
00.0
0.00.0
0.048
1.30.6
0.40.2
681.8
0.80.6
0.3131
3.11.4
1.00.5
81R
enewable
energyfrom
heatpumps
(subtotal)69
2.11.0
0.50.2
962.6
1.20.8
0.4137
3.61.6
1.10.5
2636.3
2.82.1
1.081
Total(accordingto
Template
Table11)
3213100.0
47.724.3
11.63657
100.046.0
30.514.2
3808100.0
45.431.2
14.64179
100.045.1
32.615.4
-Sum
ofalltechnologies(Tem
plateTable
11)3213
100.047.7
24.311.6
3657100.0
46.030.5
14.23808
100.045.4
31.214.6
4179100.0
45.132.6
15.4-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
3213100.0
47.724.3
11.63657
100.046.0
30.514.2
3808100.0
45.431.2
14.64179
100.045.1
32.615.4
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
549.6
0.70.6
0.261
9.70.7
0.70.2
809.3
0.91.0
0.382
Biodiesel
3517.1
0.50.4
0.1276
48.93.5
3.31.1
30949.0
3.73.7
1.2410
47.94.4
4.91.5
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity162
79.02.4
1.80.6
17130.3
2.22.1
0.7191
30.32.3
2.30.7
27231.8
2.93.2
1.085
Otherbiofuels
83.9
0.10.1
0.063
11.20.8
0.80.2
7111.3
0.80.8
0.394
11.01.0
1.10.3
86Total(according
toTem
plateTable
12)205
100.03.0
2.30.7
564100.0
7.16.8
2.2631
100.07.5
7.52.4
856100.0
9.210.2
3.2-
Sumofalltechnologies
(Template
Table12)
205100.0
3.02.3
0.7564
100.07.1
6.82.2
632100.2
7.57.5
2.4856
100.09.2
10.23.2
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
205100.0
3.02.3
0.7564
100.07.1
6.82.2
631100.0
7.57.5
2.4856
100.09.2
10.23.2
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
214104.4
3.22.4
0.8564
100.07.1
6.82.2
656104.0
7.87.8
2.5976
114.010.5
11.63.6
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)6735
100.075.3
24.47952
100.095.4
30.98392
100.0100.2
32.19266
100.0110.1
34.246
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
6808101.1
76.124.7
7952100.0
95.430.9
8392100.0
100.232.1
9267100.0
110.134.2
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
697077.9
25.28123
97.431.6
8585102.5
32.99539
113.435.2
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
6735100.0
75.324.4
7952100.0
95.430.9
8392100.0
100.232.1
9266100.0
110.134.2
46–
49
FinalE
lectricityreference
scenariof
57255634
60916666
34consum
ptionadditionalenergy
efficiencyf
5725100.0
20.75634
100.021.9
5817100.0
22.36377
100.023.5
35
Heating
andcooling
referencescenario
f13206
1200713009
1427436
additionalenergyefficiency
f13206
100.047.8
12007100.0
46.712203
100.046.7
12802100.0
47.237
Transportreference
scenariof
89458336
905510065
38additionalenergy
efficiencyf
8945100.0
32.48336
100.032.4
8374100.0
32.18414
100.031.0
39
Totalbeforeaviation
reductionreference
scenariof
2761025726
2789330622
40additionalenergy
efficiencyf
27610100.0
25726100.0
26113100.0
27109100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g23.3
25.428.1
34.028
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
106 ECN-E--10-069
28 NOV 2011 Poland
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
2201
189
58.1
0.0
0.0
0.0
2279
196
21.5
3.3
1.6
0.3
2439
210
12.3
2.8
1.6
0.3
2969
255
9.2
2.4
1.7
0.4
67G
eoth
erm
al0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
069
Sola
rpho
tovo
ltaic
00
0.0
0.0
0.0
0.0
10
0.0
0.0
0.0
0.0
20
0.0
0.0
0.0
0.0
30
0.0
0.0
0.0
0.0
71C
once
ntra
ted
sola
rpow
er0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
00
00.
00.
00.
00.
071
Sola
r(su
btot
al)
00
0.0
0.0
0.0
0.0
10
0.0
0.0
0.0
0.0
20
0.0
0.0
0.0
0.0
30
0.0
0.0
0.0
0.0
71Ti
dal,
wav
ean
doc
ean
ener
gy0
00.
00.
00.
00.
00
00.
00.
00.
00.
00
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00.
00
00.
00.
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00.
073
Ons
hore
win
d13
612
3.6
0.0
0.0
0.0
2310
199
21.8
3.4
1.6
0.3
7370
634
37.1
8.3
4.8
1.0
1316
011
3240
.610
.67.
81.
675
Off
shor
ew
ind
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
1500
129
4.6
1.2
0.9
0.2
75W
ind
pow
er(s
ubto
tal)
136
123.
60.
00.
00.
023
1019
921
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41.
60.
375
4164
837
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54.
91.
015
210
1308
46.9
12.2
9.0
1.9
75So
lidbi
omas
s13
4011
535
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00.
00.
057
0049
053
.78.
34.
10.
889
5077
045
.010
.15.
91.
210
200
877
31.5
8.2
6.0
1.3
77B
ioga
s11
110
2.9
0.0
0.0
0.0
328
283.
10.
50.
20.
094
381
4.7
1.1
0.6
0.1
4018
345
12.4
3.2
2.4
0.5
77B
ioliq
uids
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
00
0.0
0.0
0.0
0.0
77B
iom
ass
(sub
tota
l)14
5112
538
.30.
00.
00.
060
2851
856
.88.
84.
30.
898
9385
149
.811
.26.
51.
314
218
1223
43.9
11.4
8.4
1.8
77To
tal(
acco
rdin
gto
Tem
plat
eTa
bles
10a/
b)37
8732
610
0.0
0.0
0.0
0.0
1061
891
310
0.0
15.5
7.5
1.5
1987
517
0910
0.0
22.4
13.0
2.7
3240
027
8610
0.0
26.0
19.1
4.0
-Su
mof
allt
echn
olog
ies
(Tem
plat
eTa
bles
10a/
b)37
8832
610
0.0
0.0
0.0
0.0
1061
891
310
0.0
15.5
7.5
1.5
1987
517
0910
0.0
22.4
13.0
2.7
3240
027
8610
0.0
26.0
19.1
4.0
-G
ross
final
RE
S-E
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
n.a.
0.0
0.0
0.0
0.0
913
100.
015
.57.
51.
517
0910
0.0
22.4
13.0
2.7
2786
100.
026
.019
.14.
046
–49
Hea
ting
and
cool
ing
Geo
ther
mal
n.a.
0.0
0.0
0.0
0.0
230.
60.
40.
10.
057
1.3
0.7
0.2
0.1
178
3.0
1.7
0.5
0.3
78So
lart
herm
aln.
a.0.
00.
00.
00.
021
0.5
0.4
0.1
0.0
176
3.9
2.3
0.5
0.3
506
8.5
4.7
1.5
0.7
79So
lidbi
omas
sn.
a.0.
00.
00.
00.
038
4696
.665
.511
.96.
339
9688
.252
.512
.16.
246
3678
.343
.213
.46.
780
Bio
gas
n.a.
0.0
0.0
0.0
0.0
651.
61.
10.
20.
123
15.
13.
00.
70.
445
37.
74.
21.
30.
780
Bio
liqui
dsn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
080
Bio
mas
s(s
ubto
tal)
00.
00.
00.
00.
039
1198
.366
.612
.16.
442
2793
.355
.512
.86.
650
8985
.947
.414
.77.
480
Aer
othe
rmal
heat
pum
psn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
081
Geo
ther
mal
heat
pum
psn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
081
Hyd
roth
erm
alhe
atpu
mps
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
81R
enew
able
ener
gyfr
omhe
atpu
mps
(sub
tota
l)0
0.0
0.0
0.0
0.0
250.
60.
40.
10.
072
1.6
0.9
0.2
0.1
148
2.5
1.4
0.4
0.2
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
n.a.
0.0
0.0
0.0
0.0
3980
100.
067
.812
.36.
545
3210
0.0
59.5
13.7
7.1
5921
100.
055
.217
.18.
6-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e11
)0
0.0
0.0
0.0
0.0
3980
100.
067
.812
.36.
545
3210
0.0
59.5
13.7
7.1
5921
100.
055
.217
.18.
6-
Gro
ssfin
alR
ES-
H/C
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
n.a.
0.0
0.0
0.0
0.0
3980
100.
067
.812
.36.
545
3210
0.0
59.5
13.7
7.1
5921
100.
055
.217
.18.
646
–49
Tran
spor
tB
ioet
hano
l/bi
o-E
TB
E28
65.1
0.0
0.0
0.0
279
28.4
4.8
1.7
0.5
334
24.3
4.4
1.9
0.5
451
22.3
4.2
2.3
0.7
82B
iodi
esel
1534
.90.
00.
00.
068
770
.011
.74.
11.
199
372
.213
.05.
61.
614
5171
.913
.57.
32.
183
Hyd
roge
nfr
omre
new
able
sn.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
0n.
a.0.
00.
00.
00.
084
Ren
ewab
leel
ectr
icity
00.
00.
00.
00.
015
1.5
0.3
0.1
0.0
231.
70.
30.
10.
050
2.5
0.5
0.3
0.1
85O
ther
biof
uels
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
261.
90.
30.
10.
066
3.3
0.6
0.3
0.1
86To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
12)
4310
0.0
0.0
0.0
0.0
981
100.
016
.75.
81.
613
7610
0.0
18.1
7.7
2.2
2018
100.
018
.810
.12.
9-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)43
100.
00.
00.
00.
098
110
0.0
16.7
5.8
1.6
1376
100.
018
.17.
72.
220
1810
0.0
18.8
10.1
2.9
-G
ross
final
RE
S-T
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
n.a.
0.0
0.0
0.0
0.0
981
100.
016
.75.
81.
613
7610
0.0
18.1
7.7
2.2
2018
100.
018
.810
.12.
946
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e43
100.
00.
00.
00.
097
199
.016
.55.
81.
614
4410
4.9
19.0
8.1
2.3
2194
108.
720
.511
.03.
246
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)n.
a.0.
00.
00.
058
7310
0.0
35.0
9.6
7617
100.
042
.811
.910
725
100.
053
.915
.546
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)36
90.
00.
00.
058
5999
.834
.99.
675
9499
.742
.711
.910
675
99.5
53.6
15.4
-Su
mal
ltec
hnol
ogie
sin
Tem
plat
eTa
bles
10a/
b,11
,12
369
0.0
0.0
5874
35.0
9.6
7617
42.8
11.9
1072
553
.915
.5-
Co-
oper
atio
nm
echa
nism
sTr
ansf
erfr
omot
herM
embe
rSta
tes
and
thir
dco
untr
ies
n.a.
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
Tran
sfer
toot
herM
embe
rSta
tes
n.a.
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
All
RE
Sin
cl.c
o-op
erat
ion
mec
h.To
tal(
Tem
plat
eTa
ble
4a)
n.a.
0.0
0.0
0.0
5873
100.
035
.09.
676
1710
0.0
42.8
11.9
1072
510
0.0
53.9
15.5
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
fn.
a.12
900
1530
017
400
34co
nsum
ptio
nad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
0.0
1210
010
0.0
19.7
1310
010
0.0
20.5
1460
010
0.0
21.1
35
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
n.a.
3160
038
800
4620
036
addi
tiona
lene
rgy
effic
ienc
yfn.
a.0.
00.
032
400
100.
052
.933
100
100.
051
.734
700
100.
050
.137
Tran
spor
tre
fere
nce
scen
ario
fn.
a.16
800
1790
019
100
38ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
0.0
1680
010
0.0
27.4
1780
010
0.0
27.8
1990
010
0.0
28.8
39
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
fn.
a.61
300
7200
082
700
40ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
6130
010
0.0
6400
010
0.0
6920
010
0.0
41
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
n.a.
n.a.
n.a.
n.a.
42ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
7.2
8.8
10.7
15.0
28a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 107
Portugal 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
5118440
57.311.4
9.72.2
9742838
42.818.7
17.74.5
11101955
37.717.6
18.85.0
140741210
39.620.0
21.86.2
67G
eothermal
555
0.60.1
0.10.0
16314
0.70.3
0.30.1
26022
0.90.4
0.40.1
48842
1.40.7
0.80.2
69Solarphotovoltaic
30
0.00.0
0.00.0
23020
1.00.4
0.40.1
79769
2.71.3
1.40.4
1475127
4.12.1
2.30.7
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.0360
311.2
0.60.6
0.21000
862.8
1.41.6
0.471
Solar(subtotal)3
00.0
0.00.0
0.0230
201.0
0.40.4
0.11157
993.9
1.82.0
0.52475
2137.0
3.53.8
1.171
Tidal,wave
andocean
energy0
00.0
0.00.0
0.01
00.0
0.00.0
0.075
60.3
0.10.1
0.0437
381.2
0.60.7
0.273
Onshore
wind
1773152
19.93.9
3.30.8
10214878
44.919.6
18.64.7
134201154
45.621.3
22.76.0
144161240
40.520.5
22.36.4
75O
ffshorew
ind0
00.0
0.00.0
0.00
00.0
0.00.0
0.060
50.2
0.10.1
0.0180
150.5
0.30.3
0.175
Wind
power(subtotal)
1773152
19.93.9
3.30.8
10214878
44.919.6
18.64.7
134001152
45.521.3
22.76.0
145961255
41.020.8
22.66.4
75Solid
biomass
93480
10.52.1
1.80.4
109294
4.82.1
2.00.5
1468126
5.02.3
2.50.7
1468126
4.12.1
2.30.6
77B
iogas34
30.4
0.10.1
0.0138
120.6
0.30.3
0.1368
321.3
0.60.6
0.2525
451.5
0.70.8
0.277
Bioliquids
100887
11.32.2
1.90.4
1170101
5.12.2
2.10.5
1523131
5.22.4
2.60.7
1523131
4.32.2
2.40.7
77B
iomass
(subtotal)1976
17022.1
4.43.7
0.92400
20610.5
4.64.4
1.13358
28911.4
5.35.7
1.53516
3029.9
5.05.5
1.677
Total(accordingto
Template
Tables10a/b)
8925767
100.019.9
16.83.9
227511956
100.043.7
41.410.5
294302531
100.046.7
49.913.3
355843060
100.050.6
55.215.7
-Sum
ofalltechnologies(Tem
plateTables
10a/b)8925
767100.0
19.916.8
3.922750
1956100.0
43.741.4
10.529351
252499.7
46.649.7
13.235586
3060100.0
50.655.2
15.7-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)1337
174.234.6
29.36.8
1956100.0
43.741.4
10.52531
100.046.7
49.913.3
3060100.0
50.655.2
15.746
–49
Heating
andcooling
Geotherm
al1
0.00.0
0.00.0
100.4
0.20.1
0.118
0.70.3
0.20.1
251.0
0.40.3
0.178
Solarthermal
220.9
0.60.3
0.150
2.21.1
0.70.3
1054.3
1.91.4
0.5160
6.42.6
2.00.8
79Solid
biomass
178570.6
46.222.5
9.11514
67.633.8
20.88.1
151561.5
27.919.7
7.91484
59.224.6
18.17.6
80B
iogas10
0.40.3
0.10.1
100.4
0.20.1
0.123
0.90.4
0.30.1
371.5
0.60.5
0.280
Bioliquids
71328.2
18.49.0
3.6655
29.214.6
9.03.5
80132.5
14.810.4
4.2801
32.013.3
9.84.1
80B
iomass
(subtotal)2508
99.164.9
31.612.8
217997.3
48.729.9
11.72339
95.043.1
30.412.2
232292.6
38.428.3
11.980
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)0
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.081
Total(accordingto
Template
Table11)
2530100.0
65.431.9
12.92240
100.050.0
30.712.0
2462100.0
45.431.9
12.92507
100.041.5
30.612.9
-Sum
ofalltechnologies(Tem
plateTable
11)2531
100.065.5
31.912.9
2239100.0
50.030.7
12.02462
100.045.4
31.912.9
2507100.0
41.530.6
12.9-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
2529100.0
65.431.9
12.92240
100.050.0
30.712.0
2462100.0
45.431.9
12.92507
100.041.5
30.612.9
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
00.0
0.00.0
0.024
5.20.4
0.40.1
275.0
0.40.5
0.182
Biodiesel
00.0
0.00.0
0.0281
93.46.3
4.71.5
40586.9
7.56.8
2.1450
84.17.4
7.82.3
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity12
100.00.3
0.20.1
206.6
0.40.3
0.137
7.90.7
0.60.2
5810.8
1.01.0
0.385
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)12
100.00.3
0.20.1
301100.0
6.75.0
1.6466
100.08.6
7.82.4
535100.0
8.99.3
2.7-
Sumofalltechnologies
(Template
Table12)
12100.0
0.30.2
0.1301
100.06.7
5.01.6
466100.0
8.67.8
2.4535
100.08.9
9.32.7
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
12100.0
0.30.2
0.1301
100.06.7
5.01.6
466100.0
8.67.8
2.4535
100.08.9
9.32.7
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
12100.0
0.30.2
0.1305
101.36.8
5.01.6
479102.8
8.88.0
2.5574
107.39.5
10.02.9
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)3866
100.062.1
19.74476
100.074.1
24.15421
100.090.7
28.46044
100.0105.2
31.046
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
329785.3
53.016.8
4477100.0
74.124.1
5422100.0
90.728.4
6044100.0
105.231.0
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
331053.2
16.94496
74.424.2
545291.2
28.66102
106.231.3
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
3866100.0
62.119.7
4476100.0
74.124.1
5421100.0
90.728.4
6044100.0
105.231.0
46–
49
FinalE
lectricityreference
scenariof
45584730
50765721
34consum
ptionadditionalenergy
efficiencyf
4558100.0
23.34730
100.025.4
5076100.0
26.65547
100.028.5
35
Heating
andcooling
referencescenario
f7927
72867706
837136
additionalenergyefficiency
f7927
100.040.5
7286100.0
39.27706
100.040.4
8197100.0
42.137
Transportreference
scenariof
62236040
59806010
38additionalenergy
efficiencyf
6223100.0
31.86040
100.032.5
5980100.0
31.35743
100.029.5
39
Totalbeforeaviation
reductionreference
scenariof
1958218592
1909420082
40additionalenergy
efficiencyf
19582100.0
18592100.0
19094100.0
19467100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g20.5
22.625.2
31.029
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
108 ECN-E--10-069
28 NOV 2011 Romania
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
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n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
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0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
1609
113
8410
0.0
28.1
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5.0
1656
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2596
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518
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1606
67.9
27.8
28.4
5.6
1976
817
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667
Geo
ther
mal
00
0.0
0.0
0.0
0.0
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00
0.0
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69So
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Con
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ower
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otal
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Tida
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0.0
1450
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5.3
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2.2
0.4
1950
168
6.2
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2.6
0.6
77B
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00.
00.
00.
019
20.
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00.
060
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0.9
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Bio
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00
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00
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077
Bio
mas
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0.0
0.0
0.0
0.0
676
0.4
0.1
0.1
0.0
2050
176
7.4
3.1
3.1
0.6
2900
249
9.2
3.4
3.9
0.8
77To
tal(
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rdin
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Tem
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091
1384
100.
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1470
100.
032
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727
523
2367
100.
041
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.88.
331
388
2699
100.
037
.142
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9-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
es10
a/b)
1609
113
8410
0.0
28.1
30.1
5.0
1709
414
7010
0.0
32.5
27.5
5.7
2752
323
6710
0.0
41.0
41.8
8.3
3138
826
9910
0.0
37.1
42.6
8.9
-G
ross
final
RE
S-E
cons
umpt
ion
(Tem
plat
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ble
4a)
1347
97.4
27.4
29.3
4.9
1435
97.6
31.7
26.8
5.5
2333
98.6
40.4
41.3
8.2
2666
98.8
36.7
42.1
8.8
46–
49H
eatin
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olin
gG
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erm
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0.5
0.3
0.1
0.1
250.
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20.
152
1.7
0.9
0.3
0.2
802.
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10.
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378
Sola
rthe
rmal
00.
00.
00.
00.
00
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0.0
0.0
0.0
140.
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10.
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1.7
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0.4
0.2
79So
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2793
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61.7
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16.6
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3845
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0.0
0.0
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0.2
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180
Bio
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0.0
0.0
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10.
080
Bio
mas
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ubto
tal)
00.
00.
00.
00.
027
9499
.161
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.710
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3197
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.816
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.238
7696
.053
.321
.212
.880
Aer
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ps0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
01
0.0
0.0
0.0
0.0
40.
10.
10.
00.
081
Geo
ther
mal
heat
pum
ps0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
02
0.1
0.0
0.0
0.0
80.
20.
10.
00.
081
Hyd
roth
erm
alhe
atpu
mps
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
81R
enew
able
ener
gyfr
omhe
atpu
mps
(sub
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l)0
0.0
0.0
0.0
0.0
00.
00.
00.
00.
03
0.1
0.1
0.0
0.0
120.
30.
20.
10.
081
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e11
)31
8310
0.0
64.7
16.9
11.6
2819
100.
062
.217
.910
.930
0010
0.0
52.0
17.1
10.5
4038
100.
055
.622
.013
.3-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e11
)17
0.5
0.3
0.1
0.1
2819
100.
062
.217
.910
.930
0010
0.0
52.0
17.1
10.5
4038
100.
055
.622
.013
.3-
Gro
ssfin
alR
ES-
H/C
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
3516
110.
571
.418
.712
.828
1910
0.0
62.2
17.9
10.9
3000
100.
052
.017
.110
.540
3810
0.0
55.6
22.0
13.3
46–
49Tr
ansp
ort
Bio
etha
nol/
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ET
BE
n.a.
0.0
0.0
0.0
0.0
7525
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71.
60.
312
126
.72.
12.
20.
416
322
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90.
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Bio
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a.0.
00.
00.
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.33.
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832
645
.74.
55.
81.
183
Hyd
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new
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00.
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0.0
0.0
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84R
enew
able
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ity41
50.0
0.8
1.0
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3612
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80.
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0.8
0.2
537.
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Oth
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00.
00.
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00.
00.
00.
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0.9
0.1
0.1
0.0
86To
tal(
acco
rdin
gto
Tem
plat
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ble
12)
8210
0.0
1.7
2.0
0.3
296
100.
06.
56.
31.
145
410
0.0
7.9
8.4
1.6
714
100.
09.
812
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4-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)41
50.0
0.8
1.0
0.1
260
87.8
5.7
5.5
1.0
408
90.0
7.1
7.6
1.4
551
77.1
7.6
9.8
1.8
-G
ross
final
RE
S-T
cons
umpt
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(Tem
plat
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5870
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40.
227
592
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15.
81.
143
696
.17.
68.
11.
556
479
.07.
810
.01.
946
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e58
70.9
1.2
1.4
0.2
275
92.8
6.1
5.8
1.1
436
96.1
7.6
8.1
1.5
564
79.0
7.8
10.0
1.9
46–
49A
llR
ES
excl
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atio
nm
ech.
Gro
ssfin
alR
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plat
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4921
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8.9
17.9
4529
100.
095
.917
.557
6910
0.0
107.
320
.272
6810
0.0
129.
124
.046
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)46
0793
.611
1.3
16.7
4549
100.
496
.317
.657
7510
0.1
107.
420
.273
9510
1.8
131.
424
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Sum
allt
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ies
inTe
mpl
ate
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es10
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11,1
214
4134
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245
4996
.317
.657
7510
7.4
20.2
7287
129.
524
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Co-
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and
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00.
00.
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00
0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
46–
49Tr
ansf
erto
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rMem
berS
tate
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0.0
0.0
0.0
00.
00.
00.
00
0.0
0.0
0.0
00.
00.
00.
046
–49
All
RE
Sin
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4921
100.
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8.9
17.9
4529
100.
095
.917
.557
6910
0.0
107.
320
.272
6810
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129.
124
.046
–49
Fina
lE
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scen
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f46
0153
5061
8974
3934
cons
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addi
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yf46
0110
0.0
16.7
5350
100.
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.756
5510
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19.8
6334
100.
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.935
Hea
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1877
916
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1877
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68.2
1578
810
0.0
61.0
1757
210
0.0
61.4
1831
610
0.0
60.5
37
Tran
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f41
3948
5657
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3938
addi
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3910
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15.0
4725
100.
018
.353
7910
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18.8
5628
100.
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Tota
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863
100.
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Tota
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n.a.
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n.a.
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n.a.
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n.a.
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43Ta
rget
Tran
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17.8
19.0
20.6
24.0
29a
The
perc
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-tot
al(R
ES-
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H/C
orR
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T,se
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light
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bold
).b
The
perc
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rto
the
valu
esin
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colu
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and
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The
perc
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the
valu
esin
the
colu
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‘[kt
oe]’
and
expr
ess
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shar
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wab
lete
chno
logy
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ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
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umpt
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the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
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rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
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:320
09D
0548
:EN
:NO
T
ECN-E--10-069 109
Slovenia 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
4099352
97.342.6
27.76.9
4198361
93.141.3
30.27.3
4559392
85.635.7
30.37.6
5121440
83.632.8
32.88.3
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
69Solarphotovoltaic
00
0.00.0
0.00.0
121
0.30.1
0.10.0
373
0.70.3
0.20.1
13912
2.30.9
0.90.2
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)0
00.0
0.00.0
0.012
10.3
0.10.1
0.037
30.7
0.30.2
0.1139
122.3
0.90.9
0.271
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.073
Onshore
wind
00
0.00.0
0.00.0
20
0.00.0
0.00.0
1099
2.00.9
0.70.2
19116
3.11.2
1.20.3
75O
ffshorew
ind0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.075
Wind
power(subtotal)
00
0.00.0
0.00.0
20
0.00.0
0.00.0
1099
2.00.9
0.70.2
19116
3.11.2
1.20.3
75Solid
biomass
827
1.90.9
0.60.1
15013
3.31.5
1.10.3
27223
5.12.1
1.80.5
30927
5.02.0
2.00.5
77B
iogas32
30.8
0.30.2
0.1148
133.3
1.51.1
0.3351
306.6
2.72.3
0.6367
326.0
2.32.4
0.677
Bioliquids
00
0.00.0
0.00.0
00
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
77B
iomass
(subtotal)114
102.7
1.20.8
0.2298
266.6
2.92.1
0.5623
5411.7
4.94.1
1.0676
5811.0
4.34.3
1.177
Total(accordingto
Template
Tables10a/b)
4213362
100.043.8
28.57.1
4510388
100.044.4
32.47.9
5328458
100.041.7
35.48.8
6126527
100.039.2
39.39.9
-Sum
ofalltechnologies(Tem
plateTables
10a/b)4213
362100.0
43.828.5
7.14510
388100.0
44.432.4
7.95328
458100.0
41.735.4
8.86127
527100.0
39.239.3
9.9-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)362
99.943.7
28.57.1
388100.1
44.432.4
7.9458
100.041.7
35.48.8
527100.0
39.239.3
9.946
–49
Heating
andcooling
Geotherm
al16
3.41.9
0.70.3
184.0
2.10.9
0.419
3.41.7
0.90.4
203.2
1.51.0
0.478
Solarthermal
30.6
0.40.1
0.15
1.10.6
0.30.1
101.8
0.90.5
0.221
3.41.6
1.00.4
79Solid
biomass
40186.2
48.417.5
7.9415
93.347.5
20.88.4
48386.1
43.923.5
9.3497
79.537.0
24.59.3
80B
iogas0
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.080
Bioliquids
439.2
5.21.9
0.80
0.00.0
0.00.0
122.1
1.10.6
0.228
4.52.1
1.40.5
80B
iomass
(subtotal)444
95.553.6
19.48.7
41593.3
47.520.8
8.4495
88.245.0
24.19.5
52584.0
39.125.9
9.980
Aerotherm
alheatpumps
00.0
0.00.0
0.01
0.20.1
0.10.0
71.2
0.60.3
0.114
2.21.0
0.70.3
81G
eothermalheatpum
ps0
0.00.0
0.00.0
40.9
0.50.2
0.126
4.62.4
1.30.5
386.1
2.81.9
0.781
Hydrotherm
alheatpumps
00.0
0.00.0
0.02
0.40.2
0.10.0
50.9
0.50.2
0.15
0.80.4
0.20.1
81R
enewable
energyfrom
heatpumps
(subtotal)2
0.40.2
0.10.0
81.8
0.90.4
0.237
6.63.4
1.80.7
589.3
4.32.9
1.181
Total(accordingto
Template
Table11)
465100.0
56.220.3
9.1445
100.050.9
22.39.0
561100.0
51.027.3
10.8625
100.046.5
30.811.7
-Sum
ofalltechnologies(Tem
plateTable
11)465
100.056.2
20.39.1
446100.2
51.022.3
9.1561
100.051.0
27.310.8
62499.8
46.430.8
11.7-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
465100.0
56.220.3
9.1445
100.050.9
22.39.0
561100.0
51.027.3
10.8625
100.046.5
30.811.7
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
48.7
0.50.2
0.18
9.30.7
0.40.2
199.4
1.41.0
0.482
Biodiesel
00.0
0.00.0
0.037
80.44.2
2.10.8
7283.7
6.63.9
1.4174
85.712.9
8.93.3
83H
ydrogenfrom
renewables
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
84R
enewable
electricity4
100.00.5
0.30.1
510.9
0.60.3
0.17
8.10.6
0.40.1
115.4
0.80.6
0.285
Otherbiofuels
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)4
100.00.5
0.30.1
46100.0
5.32.7
0.986
100.07.8
4.71.7
203100.0
15.110.4
3.8-
Sumofalltechnologies
(Template
Table12)
4100.0
0.50.3
0.146
100.05.3
2.70.9
87101.2
7.94.7
1.7204
100.515.2
10.43.8
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
00.0
0.00.0
0.040
87.04.6
2.30.8
7991.9
7.24.3
1.5192
94.614.3
9.83.6
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
4100.0
0.50.3
0.146
100.05.3
2.70.9
86100.0
7.84.7
1.7204
100.515.2
10.43.8
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)828
100.054.3
16.3874
100.050.4
17.71099
100.059.8
21.21344
100.068.8
25.246
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
82799.9
54.216.3
874100.0
50.417.7
109899.9
59.721.2
1344100.0
68.825.2
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
83154.5
16.3880
50.717.9
110660.1
21.31355
69.425.5
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
828100.0
54.316.3
874100.0
50.417.7
1099100.0
59.821.2
1344100.0
68.825.2
46–
49
FinalE
lectricityreference
scenariof
1272n.a.
n.a.n.a.
34consum
ptionadditionalenergy
efficiencyf
1272100.0
25.01196
100.024.3
1293100.0
24.91342
100.025.2
35
Heating
andcooling
referencescenario
f2291
n.a.n.a.
n.a.36
additionalenergyefficiency
f2291
100.045.0
1996100.0
40.52054
100.039.6
2029100.0
38.137
Transportreference
scenariof
1526n.a.
n.a.n.a.
38additionalenergy
efficiencyf
1526100.0
30.01735
100.035.2
1839100.0
35.51953
100.036.7
39
Totalbeforeaviation
reductionreference
scenariof
5090n.a.
n.a.n.a.
40additionalenergy
efficiencyf
5090100.0
4927100.0
5186100.0
5323100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g16.0
17.820.1
25.029
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
110 ECN-E--10-069
28 NOV 2011 Slovakia
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
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0.0
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0.0
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ydro
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er(s
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4638
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99.2
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610
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31.
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1014
721
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377
Tota
l(ac
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ate
Tabl
es10
a/b)
4677
402
100.
052
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954
8147
110
0.0
46.5
19.2
4.4
7178
617
100.
056
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780
0068
810
0.0
43.8
24.0
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mof
allt
echn
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(Tem
plat
eTa
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10a/
b)46
7740
210
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16.7
3.9
5481
471
100.
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688
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alR
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Eco
nsum
ptio
n(T
empl
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Tabl
e4a
)40
410
0.5
52.3
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4.0
471
99.9
46.5
19.1
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617
100.
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878
Sola
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00.
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02
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130
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Bio
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73.
30.
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360
7.3
3.8
1.1
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80B
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0.0
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n.a.
0.0
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899
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00.
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01
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0.0
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40.
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081
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ther
mal
heat
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0.0
0.0
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00.
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00.
00.
02
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0.2
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0.0
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10.
081
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00.
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00.
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0.0
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0.0
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20.
10.
00.
03
0.4
0.2
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0.0
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enew
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l)0
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04
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101.
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20.
181
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e11
)36
110
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5.9
3.5
452
100.
044
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64.
262
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57.7
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Sum
ofal
ltec
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s(T
empl
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Tabl
e11
)36
110
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3.5
452
100.
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262
710
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57.7
10.9
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100.
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plat
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361
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545
210
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44.6
7.6
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627
100.
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010
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52.2
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7.3
46–
49Tr
ansp
ort
Bio
etha
nol/
bio-
ET
BE
00.
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015
16.7
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3020
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81.
20.
375
36.2
4.8
2.7
0.7
82B
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00.
00.
00.
00.
067
74.4
6.6
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0.6
107
72.8
9.9
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110
53.1
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83H
ydro
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from
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00.
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00.
00.
00
0.0
0.0
0.0
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00.
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00
0.0
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84R
enew
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elec
tric
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100.
01.
00.
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18
8.9
0.8
0.4
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40.
117
8.2
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0.6
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85O
ther
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00
0.0
0.0
0.0
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00.
00.
00.
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05
2.4
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0.2
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86To
tal(
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rdin
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Tem
plat
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ble
12)
810
0.0
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0.5
0.1
9010
0.0
8.9
4.1
0.8
147
100.
013
.56.
01.
420
710
0.0
13.2
7.5
1.8
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allt
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plat
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810
0.0
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147
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ross
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cons
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(Tem
plat
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810
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9010
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8.9
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147
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0.0
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ES-
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clud
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21.2
(Tem
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810
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147
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427
513
2.9
17.5
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excl
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772
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45.6
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1391
128.
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1510
9.1
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Tem
plat
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99.2
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9810
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sin
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plat
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771
44.2
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56.8
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All
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Hea
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Tran
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f17
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Tota
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addi
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Tota
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n.a.
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42ad
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nerg
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n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
6.7
8.2
10.0
14.0
29a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 111
Finland 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
139101196
58.615.8
15.94.6
142101222
62.716.6
16.24.7
142101222
55.513.7
14.94.5
144101239
43.111.6
14.24.4
67G
eothermal
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
69Solarphotovoltaic
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
71C
oncentratedsolarpow
er0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Tidal,wave
andocean
energy0
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.073
Onshore
wind
15013
0.60.2
0.20.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
3500301
10.52.8
3.41.1
75O
ffshorew
ind0
00.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.02500
2157.5
2.02.5
0.875
Wind
power(subtotal)
15013
0.60.2
0.20.0
36031
1.60.4
0.40.1
1520131
5.91.5
1.60.5
6000516
18.04.8
5.91.8
75Solid
biomass
9640829
40.611.0
11.03.2
3930338
17.34.6
4.51.3
5300456
20.75.1
5.61.7
7860676
23.56.3
7.72.4
77B
iogas20
20.1
0.00.0
0.040
30.2
0.00.0
0.050
40.2
0.00.1
0.0270
230.8
0.20.3
0.177
Bioliquids
n.a.n.a.
0.00.0
0.00.0
4120354
18.24.8
4.71.4
4530390
17.74.4
4.71.4
4780411
14.33.8
4.71.5
77B
iomass
(subtotal)9660
83140.7
11.011.0
3.28090
69635.7
9.49.2
2.79880
85038.6
9.510.3
3.112910
111038.6
10.412.7
3.977
Total(accordingto
Template
Tables10a/b)
237302040
100.027.0
27.17.8
226601948
100.026.4
25.87.6
256202203
100.024.6
26.88.0
334202874
100.026.9
32.910.2
-Sum
ofalltechnologies(Tem
plateTables
10a/b)23720
2040100.0
27.027.1
7.822660
1948100.0
26.425.8
7.625610
2202100.0
24.626.8
8.033320
286599.7
26.832.8
10.2-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)2030
99.526.9
27.07.7
1950100.1
26.425.8
7.62200
99.924.6
26.88.0
287099.9
26.832.8
10.246
–49
Heating
andcooling
Geotherm
al0
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.078
Solarthermal
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
79Solid
biomass
545098.6
72.139.0
20.82710
52.036.7
19.310.5
330052.1
36.922.0
12.03940
54.236.8
25.814.0
80B
iogas40
0.70.5
0.30.2
300.6
0.40.2
0.130
0.50.3
0.20.1
600.8
0.60.4
0.280
Bioliquids
n.a.0.0
0.00.0
0.02240
43.030.4
16.08.7
247039.0
27.616.5
9.02610
35.924.4
17.19.3
80B
iomass
(subtotal)5490
99.372.6
39.320.9
498095.6
67.535.5
19.45800
91.564.8
38.721.2
661090.9
61.843.2
23.580
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.081
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)40
0.70.5
0.30.2
2304.4
3.11.6
0.9530
8.45.9
3.51.9
6609.1
6.24.3
2.381
Total(accordingto
Template
Table11)
5530100.0
73.139.6
21.15210
100.070.6
37.220.2
6340100.0
70.842.3
23.17270
100.067.9
47.525.8
-Sum
ofalltechnologies(Tem
plateTable
11)5530
100.073.1
39.621.1
5210100.0
70.637.2
20.26330
99.870.7
42.223.1
7270100.0
67.947.5
25.8-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
5530100.0
73.139.6
21.15210
100.070.6
37.220.2
6340100.0
70.842.3
23.17270
100.067.9
47.525.8
46–
49Transport
Bioethanol/bio-E
TB
E0
0.00.0
0.00.0
7030.4
0.91.7
0.3120
27.31.3
2.90.4
13021.7
1.23.2
0.582
Biodiesel
00.0
0.00.0
0.0150
65.22.0
3.70.6
30068.2
3.47.3
1.1430
71.74.0
10.51.5
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity20
100.00.3
0.50.1
208.7
0.30.5
0.120
4.50.2
0.50.1
406.7
0.41.0
0.185
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)20
100.00.3
0.50.1
230100.0
3.15.7
0.9440
100.04.9
10.71.6
600100.0
5.614.7
2.1-
Sumofalltechnologies
(Template
Table12)
20100.0
0.30.5
0.1240
104.33.3
6.00.9
440100.0
4.910.7
1.6600
100.05.6
14.72.1
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
00.0
0.00.0
0.0220
95.73.0
5.50.9
41093.2
4.610.0
1.5560
93.35.2
13.72.0
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
20100.0
0.30.5
0.1230
100.03.1
5.70.9
510115.9
5.712.4
1.9800
133.37.5
19.62.8
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)7560
100.0179.1
28.87380
100.0183.1
28.78950
100.0218.3
32.610700
100.0262.3
38.046
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
7570100.1
179.428.8
736899.8
182.828.6
8963100.1
218.632.7
10704100.0
262.338.0
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
7590179.8
28.97398
183.628.8
8972218.8
32.710735
263.138.1
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countries0
0.00.0
0.00
0.00.0
0.00
0.00.0
0.00
0.00.0
0.046
–49
TransfertootherM
emberStates
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
00.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
7560100.0
179.128.8
7380100.0
183.128.7
8950100.0
218.332.6
10700100.0
262.338.0
46–
49
FinalE
lectricityreference
scenariof
7530n.a.
n.a.n.a.
34consum
ptionadditionalenergy
efficiencyf
7530100.0
28.77550
100.029.3
8210100.0
29.98740
100.031.0
35
Heating
andcooling
referencescenario
f13970
n.a.n.a.
n.a.36
additionalenergyefficiency
f13970
100.053.2
14010100.0
54.515000
100.054.7
15300100.0
54.337
Transportreference
scenariof
4220n.a.
n.a.n.a.
38additionalenergy
efficiencyf
4220100.0
16.14030
100.015.7
4100100.0
15.04080
100.014.5
39
Totalbeforeaviation
reductionreference
scenariof
26260n.a.
n.a.n.a.
40additionalenergy
efficiencyf
26260100.0
25730100.0
27420100.0
28170100.0
41
Totalafteraviationreduction
referencescenario
fn.a.
n.a.n.a.
n.a.42
additionalenergyefficiency
fn.a.
0.0n.a.
0.0n.a.
0.0n.a.
0.043
TargetTransportfuels
target10.0
-O
verallrenewable
target g28.5
30.432.8
38.030
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
112 ECN-E--10-069
28 NOV 2011 Sweden
2005
2010
2015
2020
Page
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
[GW
h][k
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67pr
oduc
tion
Hyd
ropo
wer
1MW
-10
MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er>1
0MW
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
n.a.
n.a.
0.0
0.0
0.0
0.0
67H
ydro
pow
er(s
ubto
tal)
6842
158
8388
.943
.045
.317
.068
210
5865
81.6
37.4
44.8
16.3
6814
058
5975
.333
.144
.415
.668
000
5847
69.9
29.7
44.0
14.9
67G
eoth
erm
aln.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
069
Sola
rpho
tovo
ltaic
00
0.0
0.0
0.0
0.0
10
0.0
0.0
0.0
0.0
30
0.0
0.0
0.0
0.0
40
0.0
0.0
0.0
0.0
71C
once
ntra
ted
sola
rpow
ern.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
071
Sola
r(su
btot
al)
00
0.0
0.0
0.0
0.0
10
0.0
0.0
0.0
0.0
30
0.0
0.0
0.0
0.0
40
0.0
0.0
0.0
0.0
71Ti
dal,
wav
ean
doc
ean
ener
gyn.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
0n.
a.n.
a.0.
00.
00.
00.
073
Ons
hore
win
d87
775
1.1
0.6
0.6
0.2
4585
394
5.5
2.5
3.0
1.1
8292
713
9.2
4.0
5.4
1.9
1200
010
3212
.35.
27.
82.
675
Off
shor
ew
ind
625
0.1
0.0
0.0
0.0
208
180.
20.
10.
10.
035
430
0.4
0.2
0.2
0.1
500
430.
50.
20.
30.
175
Win
dpo
wer
(sub
tota
l)93
981
1.2
0.6
0.6
0.2
4793
412
5.7
2.6
3.1
1.1
8646
743
9.6
4.2
5.6
2.0
1250
010
7512
.95.
58.
12.
775
Solid
biom
ass
7452
641
9.7
4.7
4.9
1.9
1051
390
412
.65.
86.
92.
513
574
1167
15.0
6.6
8.8
3.1
1663
514
3017
.17.
310
.83.
677
Bio
gas
535
0.1
0.0
0.0
0.0
535
0.1
0.0
0.0
0.0
535
0.1
0.0
0.0
0.0
535
0.1
0.0
0.0
0.0
77B
ioliq
uids
656
0.1
0.0
0.0
0.0
656
0.1
0.0
0.0
0.0
656
0.1
0.0
0.0
0.0
656
0.1
0.0
0.0
0.0
77B
iom
ass
(sub
tota
l)75
7065
19.
84.
85.
01.
910
631
914
12.7
5.8
7.0
2.5
1369
311
7715
.16.
78.
93.
116
754
1441
17.2
7.3
10.8
3.7
77To
tal(
acco
rdin
gto
Tem
plat
eTa
bles
10a/
b)76
931
6615
100.
048
.350
.919
.283
635
7191
100.
045
.854
.919
.990
482
7780
100.
044
.059
.020
.797
258
8363
100.
042
.462
.921
.3-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
es10
a/b)
7693
066
1510
0.0
48.3
50.9
19.2
8363
571
9110
0.0
45.8
54.9
19.9
9048
277
8010
0.0
44.0
59.0
20.7
9725
883
6310
0.0
42.4
62.9
21.3
-G
ross
final
RE
S-E
cons
umpt
ion
(Tem
plat
eTa
ble
4a)
6605
99.9
48.3
50.9
19.1
7189
100.
045
.854
.919
.977
7299
.943
.958
.920
.683
5699
.942
.462
.921
.346
–49
Hea
ting
and
cool
ing
Geo
ther
mal
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
0.0
78So
lart
herm
al6
0.1
0.0
0.0
0.0
60.
10.
00.
00.
06
0.1
0.0
0.0
0.0
60.
10.
00.
00.
079
Solid
biom
ass
6992
98.7
51.1
53.0
20.3
7800
94.7
49.7
54.0
21.6
8607
91.7
48.6
54.8
22.9
9415
89.3
47.8
55.5
24.0
80B
ioga
s21
0.3
0.2
0.2
0.1
180.
20.
10.
10.
014
0.1
0.1
0.1
0.0
110.
10.
10.
10.
080
Bio
liqui
ds65
0.9
0.5
0.5
0.2
650.
80.
40.
40.
265
0.7
0.4
0.4
0.2
650.
60.
30.
40.
280
Bio
mas
s(s
ubto
tal)
7078
99.9
51.7
53.7
20.5
7883
95.7
50.2
54.6
21.8
8686
92.5
49.1
55.3
23.1
9491
90.0
48.2
55.9
24.2
80A
erot
herm
alhe
atpu
mps
00.
00.
00.
00.
050
0.6
0.3
0.3
0.1
100
1.1
0.6
0.6
0.3
150
1.4
0.8
0.9
0.4
81G
eoth
erm
alhe
atpu
mps
00.
00.
00.
00.
027
23.
31.
71.
90.
854
45.
83.
13.
51.
481
57.
74.
14.
82.
181
Hyd
roth
erm
alhe
atpu
mps
00.
00.
00.
00.
027
0.3
0.2
0.2
0.1
540.
60.
30.
30.
180
0.8
0.4
0.5
0.2
81R
enew
able
ener
gyfr
omhe
atpu
mps
(sub
tota
l)0
0.0
0.0
0.0
0.0
349
4.2
2.2
2.4
1.0
697
7.4
3.9
4.4
1.9
1046
9.9
5.3
6.2
2.7
81To
tal(
acco
rdin
gto
Tem
plat
eTa
ble
11)
7084
100.
051
.753
.720
.582
3710
0.0
52.5
57.0
22.8
9390
100.
053
.059
.824
.910
543
100.
053
.562
.126
.9-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e11
)70
8410
0.0
51.7
53.7
20.5
8238
100.
052
.557
.022
.893
8910
0.0
53.0
59.8
24.9
1054
310
0.0
53.5
62.1
26.9
-G
ross
final
RE
S-H
/Cco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)70
8410
0.0
51.7
53.7
20.5
8237
100.
052
.557
.022
.893
9010
0.0
53.0
59.8
24.9
1054
310
0.0
53.5
62.1
26.9
46–
49Tr
ansp
ort
Bio
etha
nol/
bio-
ET
BE
144
50.0
1.1
1.9
0.4
251
47.5
1.6
3.3
0.7
358
46.6
2.0
4.5
1.0
465
46.1
2.4
5.7
1.2
82B
iodi
esel
93.
10.
10.
10.
089
16.9
0.6
1.2
0.2
170
22.1
1.0
2.2
0.5
251
24.9
1.3
3.1
0.6
83H
ydro
gen
from
rene
wab
les
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
00.
00.
00.
00.
00
0.0
0.0
0.0
0.0
84R
enew
able
elec
tric
ity12
142
.00.
91.
60.
414
727
.80.
91.
90.
417
322
.51.
02.
20.
519
819
.61.
02.
40.
585
Oth
erbi
ofue
ls13
4.5
0.1
0.2
0.0
407.
60.
30.
50.
167
8.7
0.4
0.8
0.2
949.
30.
51.
20.
286
Tota
l(ac
cord
ing
toTe
mpl
ate
Tabl
e12
)28
810
0.0
2.1
3.9
0.8
528
100.
03.
46.
91.
576
810
0.0
4.3
9.7
2.0
1008
100.
05.
112
.42.
6-
Sum
ofal
ltec
hnol
ogie
s(T
empl
ate
Tabl
e12
)28
799
.72.
13.
80.
852
799
.83.
46.
91.
576
810
0.0
4.3
9.7
2.0
1008
100.
05.
112
.42.
6-
Gro
ssfin
alR
ES-
Tco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)28
810
0.0
2.1
3.9
0.8
528
100.
03.
46.
91.
576
810
0.0
4.3
9.7
2.0
1008
100.
05.
112
.42.
646
–49
RE
S-T
incl
udin
gA
rtic
le21
.2(T
empl
ate
Tabl
e4b
)e30
110
4.5
2.2
4.0
0.9
573
108.
53.
77.
51.
684
410
9.9
4.8
10.7
2.2
1116
110.
75.
713
.82.
846
–49
All
RE
Sex
cl.c
o-op
erat
ion
mec
h.G
ross
final
RE
Sco
nsum
ptio
n(T
empl
ate
Tabl
e4a
)13
689
100.
018
3.2
39.7
1569
510
0.0
204.
243
.517
702
100.
022
4.1
47.0
1970
910
0.0
243.
050
.246
–49
Sum
tota
lsTe
mpl
ate
Tabl
es10
a/b,
11,1
2(c
orr.
Art
5(1)
)13
866
101.
318
5.5
40.2
1580
910
0.7
205.
743
.817
765
100.
422
4.9
47.2
1971
610
0.0
243.
150
.3-
Sum
allt
echn
olog
ies
inTe
mpl
ate
Tabl
es10
a/b,
11,1
213
986
187.
240
.515
956
207.
644
.217
937
227.
147
.619
914
245.
550
.8-
Co-
oper
atio
nm
echa
nism
sTr
ansf
erfr
omot
herM
embe
rSta
tes
and
thir
dco
untr
ies
n.a.
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
n.a.
0.0
0.0
0.0
46–
49Tr
ansf
erto
othe
rMem
berS
tate
sn.
a.0.
00.
00.
0n.
a.0.
00.
00.
0n.
a.0.
00.
00.
0n.
a.0.
00.
00.
046
–49
All
RE
Sin
cl.c
o-op
erat
ion
mec
h.To
tal(
Tem
plat
eTa
ble
4a)
1368
910
0.0
183.
239
.715
695
100.
020
4.2
43.5
1770
210
0.0
224.
147
.019
709
100.
024
3.0
50.2
46–
49
Fina
lE
lect
rici
tyre
fere
nce
scen
ario
f12
987
1365
014
314
1497
734
cons
umpt
ion
addi
tiona
lene
rgy
effic
ienc
yf12
987
100.
037
.613
089
100.
036
.313
191
100.
035
.013
293
100.
033
.935
Hea
ting
and
cool
ing
refe
renc
esc
enar
iof
1319
015
339
1748
819
637
36ad
ditio
nale
nerg
yef
ficie
ncyf
1319
010
0.0
38.2
1444
810
0.0
40.0
1570
610
0.0
41.7
1696
410
0.0
43.2
37
Tran
spor
tre
fere
nce
scen
ario
f74
7379
2383
7388
2338
addi
tiona
lene
rgy
effic
ienc
yf74
7310
0.0
21.6
7686
100.
021
.378
9810
0.0
21.0
8111
100.
020
.739
Tota
lbef
ore
avia
tion
redu
ctio
nre
fere
nce
scen
ario
f34
519
3782
641
132
4443
940
addi
tiona
lene
rgy
effic
ienc
yf34
519
100.
036
089
100.
037
660
100.
039
231
100.
041
Tota
laft
erav
iatio
nre
duct
ion
refe
renc
esc
enar
iof
n.a.
n.a.
n.a.
n.a.
42ad
ditio
nale
nerg
yef
ficie
ncyf
n.a.
0.0
n.a.
0.0
n.a.
0.0
n.a.
0.0
43Ta
rget
Tran
spor
tfue
lsta
rget
10.0
-O
vera
llre
new
able
targ
etg
39.8
41.6
43.9
49.0
30a
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
-tot
al(R
ES-
E,R
ES-
H/C
orR
ES-
T,se
eva
lues
high
light
edin
bold
).b
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
into
talR
ES
(ifa
pplic
able
incl
udin
gco
-ope
ratio
nm
echa
nism
s,se
eva
lue
high
light
edin
bold
).c
The
perc
enta
ges
refe
rto
the
valu
esin
the
colu
mn
‘[kt
oe]’
and
expr
ess
the
shar
eof
the
rene
wab
lete
chno
logy
inth
ese
ctor
tota
loft
hefin
algr
oss
ener
gyco
nsum
ptio
n(‘
Add
ition
alen
ergy
effic
ienc
ysc
enar
io’o
nly)
,see
valu
eshi
ghlig
hted
inbo
ld).
dT
hepe
rcen
tage
sre
fert
oth
eva
lues
inth
eco
lum
n‘[
ktoe
]’an
dex
pres
sth
esh
are
ofth
ere
new
able
tech
nolo
gyin
the
tota
lfina
lgro
ssen
ergy
cons
umpt
ion
(bef
ore
avia
tion
redu
ctio
nof
the
Add
ition
alen
ergy
effic
ienc
ysc
enar
io),
see
valu
ehi
ghlig
hted
inbo
ld).
eA
rt.2
1.2
adju
stm
entr
efer
sto
doub
leco
untin
gof
cert
ain
biof
uels
(tim
es2)
and
and
rene
wab
leel
ectr
icity
inro
adtr
ansp
ort(
times
2.5)
.f
In‘F
inal
cons
umpt
ion’
valu
esfo
rthe
year
2005
refe
rto
the
‘bas
eye
ar’i
nTe
mpl
ate
Tabl
e1
(see
Tabl
e43
(pag
e34
)to
Tabl
e52
(pag
e43
).)g
Fort
heye
ars
2005
and
2020
the
shar
esas
defin
edin
Ann
exIo
fDir
ectiv
e20
09/2
8/E
Car
epr
esen
ted,
fort
heye
ars
2010
and
2015
itis
refe
rred
toth
etr
ajec
tory
peri
ods
2011
-201
2an
d20
15-2
016.
Gen
eral
:whe
reis
refe
rred
toTa
bles
1,4a
,10a
/b,1
1an
d12
itis
mea
ntto
the
Tem
plat
e,pr
epar
edby
the
Eur
opea
nC
omm
issi
onan
dav
aila
ble
ford
ownl
oad
atht
tp://
eur-
lex.
euro
pa.e
u/L
exU
riSe
rv/L
exU
riSe
rv.d
o?ur
i=C
EL
EX
:320
09D
0548
:EN
:NO
T
ECN-E--10-069 113
United Kingdom 28 NOV 2011
20052010
20152020
Page[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d[G
Wh]
[ktoe][%
] a[%
] b[%
] c[%
] d
Renew
ableE
lectricityH
ydropower<
1MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67production
Hydropow
er1MW
-10M
Wn.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.0n.a.
n.a.0.0
0.00.0
0.067
Hydropow
er>10MW
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
67H
ydropower(subtotal)
4921423
0.020.6
1.30.3
5100439
16.110.2
1.40.3
5730493
9.55.3
1.50.3
6360547
5.42.7
1.70.4
67G
eothermal
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
n.a.n.a.
0.00.0
0.00.0
69Solarphotovoltaic
81
0.00.0
0.00.0
403
0.10.1
0.00.0
89077
1.50.8
0.20.1
2240193
1.90.9
0.60.1
71C
oncentratedsolarpow
ern.a.
n.a.0.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.071
Solar(subtotal)8
10.0
0.00.0
0.040
30.1
0.10.0
0.0890
771.5
0.80.2
0.12240
1931.9
0.90.6
0.171
Tidal,wave
andocean
energyn.a.
n.a.0.0
0.00.0
0.00
00.0
0.00.0
0.00
00.0
0.00.0
0.03950
3403.4
1.71.0
0.273
Onshore
wind
2501215
0.010.5
0.70.1
9520819
30.119.0
2.60.6
206101772
34.219.0
5.51.2
341502936
29.214.3
9.12.0
75O
ffshorew
ind403
350.0
1.70.1
0.04630
39814.6
9.21.3
0.318820
161831.2
17.45.0
1.144120
379437.7
18.511.7
2.675
Wind
power(subtotal)
2904250
0.012.2
0.80.2
141501217
44.728.3
3.80.8
394303390
65.436.4
10.62.3
782706730
66.932.8
20.84.7
75Solid
biomass
4347374
0.018.2
1.20.2
5500473
17.411.0
1.50.3
7990687
13.27.4
2.10.5
205901770
17.68.6
5.51.2
77B
iogas4762
4090.0
20.01.3
0.36830
58721.6
13.61.9
0.46300
54210.4
5.81.7
0.45570
4794.8
2.31.5
0.377
Bioliquids
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
00
0.00.0
0.00.0
77B
iomass
(subtotal)9109
7830.0
38.22.4
0.512330
106039.0
24.63.3
0.714290
122923.7
13.23.8
0.826160
224922.4
11.06.9
1.677
Total(accordingto
Template
Tables10a/b)
n.a.n.a.
0.00.0
0.00.0
316302720
100.063.2
8.61.9
603305187
100.055.7
16.23.6
11697010058
100.049.0
31.07.0
-Sum
ofalltechnologies(Tem
plateTables
10a/b)16942
14570.0
71.14.5
0.931620
2719100.0
63.28.6
1.960340
5188100.0
55.716.2
3.6116980
10058100.0
49.031.0
7.0-
Gross
finalRE
S-Econsum
ption(Tem
plateTable
4a)1506
0.073.5
4.71.0
2720100.0
63.28.6
1.95189
100.055.8
16.23.6
10059100.0
49.031.0
7.046
–49
Heating
andcooling
Geotherm
al1
0.20.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.078
Solarthermal
294.9
1.40.0
0.034
6.60.8
0.10.0
342.2
0.40.1
0.034
0.50.2
0.10.0
79Solid
biomass
49383.6
24.00.7
0.3305
58.97.1
0.50.2
90458.8
9.71.6
0.63612
58.317.6
7.02.5
80B
iogas67
11.43.3
0.10.0
183.5
0.40.0
0.054
3.50.6
0.10.0
3024.9
1.50.6
0.280
Bioliquids
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
80B
iomass
(subtotal)560
94.927.3
0.80.4
32362.4
7.50.5
0.2958
62.310.3
1.70.7
391463.1
19.17.6
2.780
Aerotherm
alheatpumps
n.a.0.0
0.00.0
0.066
12.71.5
0.10.0
19412.6
2.10.4
0.11301
21.06.3
2.50.9
81G
eothermalheatpum
psn.a.
0.00.0
0.00.0
12023.2
2.80.2
0.1354
23.03.8
0.60.2
95315.4
4.61.9
0.781
Hydrotherm
alheatpumps
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
n.a.0.0
0.00.0
0.0n.a.
0.00.0
0.00.0
81R
enewable
energyfrom
heatpumps
(subtotal)0
0.00.0
0.00.0
18635.9
4.30.3
0.1548
35.75.9
1.00.4
225436.4
11.04.4
1.681
Total(accordingto
Template
Table11)
590100.0
28.80.9
0.4518
100.012.0
0.90.4
1537100.0
16.52.8
1.16199
100.030.2
12.04.3
-Sum
ofalltechnologies(Tem
plateTable
11)590
100.028.8
0.90.4
543104.8
12.60.9
0.41540
100.216.5
2.81.1
6202100.0
30.212.0
4.3-
Gross
finalRE
S-H/C
consumption
(Template
Table4a)
47580.5
23.20.7
0.3518
100.012.0
0.90.4
1537100.0
16.52.8
1.16199
100.030.2
12.04.3
46–
49Transport
Bioethanol/bio-E
TB
E18
9.60.9
0.00.0
13511.9
3.10.3
0.1692
25.67.4
1.60.5
174339.0
8.54.2
1.282
Biodiesel
5730.3
2.80.1
0.0861
76.120.0
2.10.6
181867.3
19.54.3
1.22462
55.112.0
5.91.7
83H
ydrogenfrom
renewables
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
84R
enewable
electricity113
60.15.5
0.30.1
13612.0
3.20.3
0.1192
7.12.1
0.50.1
2676.0
1.30.6
0.285
Otherbiofuels
00.0
0.00.0
0.00
0.00.0
0.00.0
00.0
0.00.0
0.00
0.00.0
0.00.0
86Total(according
toTem
plateTable
12)188
100.09.2
0.50.1
1132100.0
26.32.8
0.82702
100.029.0
6.41.9
4472100.0
21.810.7
3.1-
Sumofalltechnologies
(Template
Table12)
188100.0
9.20.5
0.11132
100.026.3
2.80.8
2702100.0
29.06.4
1.94472
100.021.8
10.73.1
-G
rossfinalR
ES-T
consumption
(Template
Table4a)
6936.7
3.40.2
0.01066
94.224.8
2.60.7
258195.5
27.76.1
1.84251
95.120.7
10.23.0
46–
49R
ES-T
includingA
rticle21.2
(Template
Table4b) e
6936.7
3.40.2
0.01066
94.224.8
2.60.7
258795.7
27.86.2
1.84295
96.020.9
10.33.0
46–
49A
llRE
Sexcl.co-operation
mech.
Gross
finalRE
Sconsum
ption(Tem
plateTable
4a)2050
100.04.9
1.34304
100.010.6
2.99307
100.022.2
6.420510
100.049.1
14.246
–49
Sumtotals
Template
Tables10a/b,11,12
(corr.Art5(1))
66532.4
1.60.4
423498.4
10.52.9
923499.2
22.06.3
2046299.8
49.014.2
-Sum
alltechnologiesin
Template
Tables10a/b,11,12
22355.4
1.44394
10.93.0
943022.5
6.520732
49.614.4
-C
o-operationm
echanisms
TransferfromotherM
emberStates
andthird
countriesn.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.0n.a.
0.00.0
0.046
–49
TransfertootherM
emberStates
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
n.a.0.0
0.00.0
46–
49A
llRE
Sincl.co-operation
mech.
Total(Template
Table4a)
2050100.0
4.91.3
4304100.0
10.62.9
9307100.0
22.26.4
20510100.0
49.114.2
46–
49
FinalE
lectricityreference
scenariof
3210031800
3310034200
34consum
ptionadditionalenergy
efficiencyf
32100100.0
20.831700
100.021.6
32100100.0
22.032400
100.022.5
35
Heating
andcooling
referencescenario
f66900
6000056900
5480036
additionalenergyefficiency
f66900
100.043.3
60000100.0
41.055300
100.038.0
51500100.0
35.737
Transportreference
scenariof
4170440485
4200241779
38additionalenergy
efficiencyf
41704100.0
27.040485
100.027.6
42002100.0
28.841779
100.029.0
39
Totalbeforeaviation
reductionreference
scenariof
154500146600
148300149000
40additionalenergy
efficiencyf
154500100.0
146500100.0
145600100.0
144100100.0
41
Totalafteraviationreduction
referencescenario
f150900
142800143000
14200042
additionalenergyefficiency
f150900
97.7142700
97.4140200
96.3136700
94.943
TargetTransportfuels
target10.0
-O
verallrenewable
target g1.3
4.07.5
15.030
aT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesector-total(R
ES-E
,RE
S-H/C
orRE
S-T,seevalues
highlightedin
bold).b
The
percentagesreferto
thevalues
inthe
column
‘[ktoe]’andexpress
theshare
oftherenew
abletechnology
intotalR
ES
(ifapplicableincluding
co-operationm
echanisms,see
valuehighlighted
inbold).
cT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thesectortotalofthe
finalgrossenergy
consumption
(‘Additionalenergy
efficiencyscenario’only),see
valueshighlighted
inbold).
dT
hepercentages
refertothe
valuesin
thecolum
n‘[ktoe]’and
expressthe
shareofthe
renewable
technologyin
thetotalfinalgross
energyconsum
ption(before
aviationreduction
oftheA
dditionalenergyefficiency
scenario),seevalue
highlightedin
bold).e
Art.21.2
adjustmentrefers
todouble
countingofcertain
biofuels(tim
es2)and
andrenew
ableelectricity
inroad
transport(times
2.5).f
In‘Finalconsum
ption’valuesforthe
year2005referto
the‘base
year’inTem
plateTable
1(see
Table43
(page34)to
Table52
(page43).)
gForthe
years2005
and2020
theshares
asdefined
inA
nnexIofD
irective2009/28/E
Care
presented,fortheyears
2010and
2015itis
referredto
thetrajectory
periods2011-2012
and2015-2016.
General:w
hereis
referredto
Tables1,4a,10a/b,11
and12
itism
eanttothe
Template,prepared
bythe
European
Com
mission
andavailable
fordownload
athttp://eur-lex.europa.eu/LexU
riServ/LexU
riServ.do?uri=CE
LE
X:32009D
0548:EN
:NO
T
114 ECN-E--10-069
28 NOV 2011 European Union, EU-27
2005
2010
2015
2020
Page
[TW
h][M
toe]
[%]a
[%]b
[%]c
[%]d
[TW
h][M
toe]
[%]a
[%]b
[%]c
[%]d
[TW
h][M
toe]
[%]a
[%]b
[%]c
[%]d
[TW
h][M
toe]
[%]a
[%]b
[%]c
[%]d
Ren
ewab
leE
lect
rici
tyH
ydro
pow
er<
1MW
111
2.4
1.0
0.4
0.1
111
1.7
0.7
0.3
0.1
121
1.3
0.6
0.3
0.1
131
1.0
0.4
0.4
0.1
67pr
oduc
tion
Hyd
ropo
wer
1MW
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MW
343
7.1
3.0
1.1
0.3
343
5.3
2.1
1.0
0.2
373
4.1
1.7
1.1
0.3
403
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ydro
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42.
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45.7
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67H
ydro
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534
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636
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30.4
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Sola
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Tida
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Off
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Win
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Bio
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1.3
0.3
646
5.3
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1.8
0.5
77B
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10
0.3
0.1
0.0
0.0
91
1.4
0.5
0.3
0.1
111
1.2
0.5
0.3
0.1
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1.0
0.4
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21.
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49
16.2
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19.1
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6.6
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Sum
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479
4110
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41.7
15.3
3.5
639
5510
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40.1
19.4
4.6
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Hea
ting
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Bio
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Bio
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02
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2.6
1.2
0.5
81G
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40.
24
3.8
1.7
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0.0
0.0
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Tran
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Bio
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Ren
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46–
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All
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ECN-E--10-069 115
Index
Index
Additional energy efficiency scenario, see Fi-nal energy consumption
Aggregate NREAPRES-E, 46–49RES-E in transport, 46–49RES-H/C, 46–49RES-T, 46–49
Agriculture and fisheries (by-products)Biomass supply, 57
Agriculture and fisheries (direct)Biomass supply, 56
Agriculture and fisheries (total)Biomass supply, 55
Annual growth (capacity)RES-E in 27 Member States, 15
Annual growth (energy)Final energy in 27 Member States, 10,
11RES total in 27 Member States, 12, 18RES-E in 27 Member States, 15RES-H/C in 27 Member States, 16RES-T in 27 Member States, 17
AustriaCountry table, 106, 116Trajectory table, 28
Aviation, see Final energy consumption
BelgiumCountry table, 88, 116Trajectory table, 24
Bio-ETBE, see Bioethanol / bio-ETBEBiodiesel
Breakdown (energy), 83Bioethanol / bio-ETBE
Breakdown (energy), 82Biomass electricity
Breakdown (capacity), 76Breakdown (energy), 77
Biomass heatBreakdown (energy), 80
Biomass supplyAgriculture and fisheries (by-products),
57Agriculture and fisheries (direct), 56Agriculture and fisheries (total), 55Forestry (direct), 53
Forestry (indirect), 54Forestry (total), 52Waste (industrial), 60Waste (municipal), 59Waste (sewage sludge), 61Waste (total), 58
Breakdown (capacity)Biomass electricity, 76Hydropower, 66Solar electricity, 70Wind power, 74
Breakdown (energy)Biodiesel, 83Bioethanol / bio-ETBE, 82Biomass electricity, 77Biomass heat, 80Heat pump, 81Hydropower, 67Other biofuels in transport, 86Renewable electricity in transport, 85Solar electricity, 71Wind power, 75
BulgariaCountry table, 89, 116Trajectory table, 24
Capacity installedGeothermal electricity, 68RES-E in 27 Member States, 14Tidal, wave and ocean energy, 72
Consumption, see Final energy consumptionCountry table
Austria, 106, 116Belgium, 88, 116Bulgaria, 89, 116Cyprus, 99, 116Czech Republic, 90, 116Denmark, 91, 116Estonia, 93, 116European Union, EU-27, 115, 116Finland, 112, 116France, 97, 116Germany, 92, 116Greece, 95, 116Hungary, 103, 116Ireland, 94, 116
116 ECN-E--10-069
Index
Italy, 98, 116Latvia, 100, 116Lithuania, 101, 116Luxembourg, 102, 116Malta, 104, 116Netherlands, 105, 116Poland, 107, 116Portugal, 108, 116Romania, 109, 116Slovakia, 111, 116Slovenia, 110, 116Spain, 96, 116Sweden, 113, 116United Kingdom, 114, 116
CyprusCountry table, 99, 116Trajectory table, 26
Czech RepublicCountry table, 90, 116Trajectory table, 24
DeficitFlexible mechanisms, 65
DenmarkCountry table, 91, 116Trajectory table, 24
Efficiency scenario, see Final energy consump-tion
Electricity consumption, see Final energy con-sumption
Electricity from biomass, see Biomass elec-tricity
Electricity from geothermal energy, see Geother-mal electricity
Electricity generationGeothermal electricity, 69RES-E in 27 Member States, 14Tidal, wave and ocean energy, 73
Electricity in transport, see Renewable elec-tricity in transport
Electricity RES options, see Energy consump-tion
Energy consumption, see Final energy con-sumption
Final energy in 27 Member States, 10,11
Geothermal heat, 78Overall renewable energy share, 12, 19Renewable hydrogen in transport, 84RES total in 27 Member States, 12, 18RES-H/C in 27 Member States, 16RES-T in 27 Member States, 17
Solar thermal, 79Energy crops
Land use, 62Estimated deficit
Flexible mechanisms, 65Estimated excess
Flexible mechanisms, 64Estonia
Country table, 93, 116Trajectory table, 25
European Union, EU-27, see also Final en-ergy in 27 Member States
Country table, 115, 116Excess
Flexible mechanisms, 64
Final energy consumptionEfficiency – after aviation, 43Efficiency – before aviation, 41Electricity, 34, 35Heating and cooling, 36, 37Reference – after aviation, 42Reference – before aviation, 40Transport, 38, 39
Final energy in 27 Member StatesAnnual growth (energy), 10, 11Energy consumption, 10Gross consumption, 11
FinlandCountry table, 112, 116Trajectory table, 30
Flexible mechanismsEstimated deficit, 65Estimated excess, 64
Forestry (direct)Biomass supply, 53
Forestry (indirect)Biomass supply, 54
Forestry (total)Biomass supply, 52
FranceCountry table, 97, 116Trajectory table, 26
Generation of electricity, see Electricity gen-eration
Geothermal electricityCapacity installed, 68Electricity generation, 69
Geothermal heatEnergy consumption, 78
GermanyCountry table, 92, 116
ECN-E--10-069 117
Index
Trajectory table, 25Greece
Country table, 95, 116Trajectory table, 25
Growth, see Annual growth
Heat from biomass, see Biomass heatingHeat from geothermal energy, see Geother-
mal heatingHeat pump
Breakdown (energy), 81Heating, see Final energy consumptionHeating RES technologies, see Energy con-
sumptionHungary
Country table, 103, 116Trajectory table, 27
Hydrogen, see Renewable hydrogenHydropower
Breakdown (capacity), 66Breakdown (energy), 67
Installed capacity, see Capacity installedIreland
Country table, 94, 116Trajectory table, 25
ItalyCountry table, 98, 116Trajectory table, 26
Land useEnergy crops, 62
LatviaCountry table, 100, 116Trajectory table, 27
LithuaniaCountry table, 101, 116Trajectory table, 27
LuxembourgCountry table, 102, 116Trajectory table, 27
MaltaCountry table, 104, 116Trajectory table, 28
NetherlandsCountry table, 105, 116Trajectory table, 28
Other biofuels in transportBreakdown (energy), 86
Overall renewable energy shareSum of 27 Member States, 12, 19
PolandCountry table, 107, 116Trajectory table, 28
PortugalCountry table, 108, 116Trajectory table, 29
Reference scenario, see Final energy consump-tion
Renewable electricity in transportBreakdown (energy), 85
Renewable energy share, see Overall renew-able energy share
Renewable hydrogen in transportEnergy consumption, 84
RES total in 27 Member StatesAnnual growth (energy), 12, 18Energy consumption, 12, 18
RES-EAggregate NREAP, 46–49
RES-E in 27 Member StatesAnnual growth (capacity), 15Annual growth (energy), 15Capacity installed, 14Electricity generation, 14
RES-E in transportAggregate NREAP, 46–49
RES-H/CAggregate NREAP, 46–49
RES-H/C in 27 Member StatesAnnual growth (energy), 16Energy consumption, 16
RES-TAggregate NREAP, 46–49
RES-T in 27 Member StatesAnnual growth (energy), 17Energy consumption, 17
RomaniaCountry table, 109, 116Trajectory table, 29
Share, see Overall renewable energy shareSlovakia
Country table, 111, 116Trajectory table, 29
SloveniaCountry table, 110, 116Trajectory table, 29
Solar electricityBreakdown (capacity), 70Breakdown (energy), 71
Solar thermalEnergy consumption, 79
118 ECN-E--10-069
Index
SpainCountry table, 96, 116Trajectory table, 26
Sum of 27 Member StatesAggregate NREAP, 46–49Gross final consumption, 10, 11Gross final consumption (growth), 10,
11Overall renewable energy share, 12, 19RES total, 12, 18RES total (growth), 12, 18RES-E, 14RES-E (growth), 15RES-H/C, 16RES-H/C (growth), 16RES-T, 17RES-T (growth), 17
SwedenCountry table, 113, 116Trajectory table, 30
Tidal, wave and ocean energyCapacity installed, 72Electricity generation, 73
Trajectory tableAustria, 28Belgium, 24Bulgaria, 24Cyprus, 26Czech Republic, 24Denmark, 24Estonia, 25Finland, 30France, 26Germany, 25Greece, 25Hungary, 27Ireland, 25Italy, 26Latvia, 27Lithuania, 27Luxembourg, 27Malta, 28Netherlands, 28Poland, 28Portugal, 29Romania, 29Slovakia, 29Slovenia, 29Spain, 26Sweden, 30United Kingdom, 30
Transport energy consumption, see Final en-ergy consumption
Transport RES options, see Energy consump-tion
United KingdomCountry table, 114, 116Trajectory table, 30
Waste (industrial)Biomass supply, 60
Waste (municipal)Biomass supply, 59
Waste (sewage sludge)Biomass supply, 61
Waste (total)Biomass supply, 58
Wind powerBreakdown (capacity), 74Breakdown (energy), 75
ECN-E--10-069 119