german-russian seminar for nontraditional and renewable sources of energy. berlin 12-13.11.08 popel...
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German-Russian seminar for nontraditional and renewable sources of energy. Berlin 12-13.11.08
Popel O.Dunaev K.Kaledina A.
Belilovsky V.Ermolenko G.Tshomaria V.Kompanietz E.Kompanietz E.
Greta Energy Investment Projects in South Federal District Of Russian Federation
Nikomarova A.
Small HPPs of Uruch and Hazni-Don rivers in Kabardino-Balkariya
Feasibility of the Project
Project DescriptionProject Description
The project foresees construction of:
• 2 HPPs cascade at Uruch river
• 4 HPPs cascade at Hazni-Don river
With total installed capacity 45 MW
Goal of the projectGoal of the project
To increase power generating capacities of Kabardino-Balkariya Republic with minimization of negative environmental impact
Year 2008:
Deficit of generating capacities 85%
Deficit of power 74%
Project Participants
Investor:
Engineering, planning, main equipment producer&supplier
JSC «Greta Energy RU»
JSC «INSET»
Main Equipment
Parameters
Name of HPP
Turbines Number of
unitsLife time,
years
«Uruchskya-1» ГА8М2 (propeller) 4 40
«Uruchskya-2» ГА9М (Francis turbine) 6 40
«Hadzidon-1» ГА10 (Pelton turbine) 2 40
«Hadzidon-2» ГА10 (Pelton turbine) 3 40
«Hadzidon-3» ГА10 (Pelton turbine) 4 40
«Hadzidon-4» ГА10М (Pelton turbine)ГА10 (Pelton turbine)
21
40
Main parameters of SHPPs at Uruch river
№п/п
Parameter Units Total
Including HPP
SHPP-1 SHPP-2
1 Calculated capacity MW 20,8 11,06 9,74
2Guaranteed capacity
MW 3,2 1,0 2,2
3 Installed capacity MW 22,1 12,5 9,6
4 Calculated flow m3/s 55,0 40,0 15,0
5 Calculated head m 35,0÷81,06 35,0 81,06
6 Hours of operationThousand
hours- 3,15 5,50
7Average annual production
Mln. kWh 88,4 34,83 53,57
Main parameters of SHPPs at Hazni-Don river
№п/п
Parameter Units Total
Including SHPP
SHPP-1 SHPP-2
1 Calculated capacity MW 22,33 5,17 5,26
2 Guaranteed capacity MW 5,28 1,38 1,38
3 Installed capacity MW 22,9 5,4 5,4
4 Calculated flow m3/s 11,72 2,16 2,16
5 Calculated head m 1086 311,5 310
6 Hours of operationThousand
hours- 3,30 3,28
7Average annual production
Mln. kWh 86,82 17,04 17,26
Main parameters of SHPPs at Hazni-Don river
№п/п
Parameter Units Total
Including SHPP
SHPP-3 SHPP-4
1 Calculated capacity MW 22,33 6,75 5,15
2 Guaranteed capacity MW 5,28 1,41 1,11
3 Installed capacity MW 22,9 7,0 5,10
4 Calculated flow m3/s 11,72 3,30 4,10
5 Calculated head m 1086 310,5 154
6 Hours of operationThousand
hours- 4,35 4,50
7Average annual production
Mln. kWh 86,82 29,34 23,18
Preliminary project economical profile
SHPP
Indicators
SHPP cascade of Uruch river
SHPP cascade of Hazni-Don river
Total investment, mln. rub 948 930
Specific investments, mln. Rub./1MW 42,9 40,6
Tariff for power, rub./kWh 2,76 2,76
Power purchase income, mln. rub 242,76 238,43
Economical effectiveness indicators Value
Total investment, billion rub1,878
NPV, billion rub 2,769
IRR, %19,68
Discounted payback time, years6,7
Preliminary project economical
profile
Белиловский В. А.Ермоленко Г. В.Каледина А. С.Цхомария В. Н.
Permanent constant price increase for energy resources in Russia, strengthening of environmental requirements, as well as an increasing risk of power grid shutdowns and emergencies makes domestic experts and agricultural enterprises select modern processing and recycling technologies of cattle breeding and poultry farm waste.
The following problems can be solved by anaerobic digestion of biodegradable waste:
Implementation of environmental protecting measures to reduce toxic emissions into air, water and soil;
Increasing farm profits by using biogas for heat and power production, as well as offering to the market organic fertilizers with stable properties (absence of smell or repeated rotting), moreover 1 litre of which equals to 100 kg of manure used as fertilizers;
Improvement of reliability and safety in energy supply of cattle breeding and poultry farms by using its own renewable energy sources;
Improvement of soils fertility and fodder area crops by using fertilizers, as a source of biogenic elements and humus.
The technology of anaerobic methane digestion with regard to circulation of organics allows to create a system with closed cycle: crop raising - fodder and foodstuffs - waste - anaerobic digestion – crop raising. In this scheme agricultural sector is provided with fertilizers and fodders, and industrial sector (in case of methane recycling) with raw material and energy. This approach contributes to Kyoto Protocol and leads to the reduction of: pollutions, greenhouse gases emission and consumption of nonrenewable resources.
According to the statistics of German Biogas Association there are 2200 agricultural biogas plants currently in operation in Europe .
*(Austria 119, Belgium 100, Czech Rep. 10, Denmark 40, France 5, Germany 1900, Greece 67, Irland 13, Italy 67, Lithuania 4, Netherlands 15, Poland 15, Portugal 100, Sweden 6, Swizerland 69, UK 60)
Distribution of total amount of agricultural sector organic waste among the federal districts of Russia (mln. Tons/%)
The largest share of organic agricultural waste (225 mln t. 36 %) is produced in the Southern Federal District. That’s why Krasnodarskiy Krai is the region of our interests. In the table below one can see data on waste productivity of Yeysk farms.
Farms Waste productivity, tons/dayООО "СПЭ" 71,1ЗАО "Заводское" 27,6АФ "Кухаревская" 44СХП "Советское" 112,9ООО "Кубань-СВ" 43ООО "Камышеватский" 27,2ЗАО "Ясенские зори" 57,8ЗАО "Воронцовское" 44,8АФ "Александровская" 10,3ООО "Агро-Вита" 59,4АФ "Приморская" 13,9ЗАО "Родина" 127,1
«GRETA ENERGY RU» and Yeysk administration are discussing feasibility of biogas plants construction using the waste of the above mentioned farms. For example we examined one of these farms – JSC “Rodina”.
The construction of bioenergy power plant and organic fertilizers production line using manure and agricultural
waste as raw material
The aim of the project is to construct biogas plant for JSC “Rodina” farm (Krasnodarkiy krai, Yeysk) operating on the base of recycling biomass and cattle breeding waste.
The project of constructing biogas plant goes along with «Russian Energy Strategy up to 2020» which defines the development of renewable energy as a priority direction.
The goals of the project and ways of achieving them.
Goals Ways of achieving
Improvement of reliability and safety of farms’ power supply
Construction on the territory of the farm, bioenergy plant, working on biogas, produced from the manure of the farm;Receiving additional heat from the heat exchangers of the fermented manure in methane tanks
Improvement of environmental protection
For atmosphere – prevention of biogas (methane) emissions and as well as reduction of natural gas used in heat production; For soil – prevention of contaminated manure and other biowaste emissions; For water – prevention of biogenic elements emissions into rain, soil, spring- flood and other water
Goals Ways of achieving
Improvement of economic effectiveness
Receiving additional profits due to:reduction of electric power purchase from utilities; reduction of natural gas purchase; reduction of mineral fertilizers purchase; Sales of bio fertilizers excess, obtained as a result of waste recycling; decrease of expenditures due to harmful emissions reduction.
Data used for calculation:average annual livestock of animals – 3486 headsdaily quantity of manure – 127,1 tons/dayhumidity of manure – 85% (mechanical harvesting)yield of biogas with 1 kg a. g. m. from 0,25 - 0,35 м3 of
biogas (60% СН4 and 40% СО2 )humidity of silo - 75%yield of biogas from 1 kg a. g. m. of silo from 0,4- 0,6 м3
biogas (60% СН4 and 40% СО2)Efficiency of conversion of biogas energy into heat– 85%Efficiency of conversion of biogas energy into power- 30% Price of electric power - 2 rub. 32 k. of KWt.hPrice of fertilizers - 1000 rbl. / ton 1 liter of such fertilizers, obtained as a result of manure
recycling, equals to 100 kg of manure, used as fertilizers
the yield of biogas calculation
ParamentValue
UnitsMin MaxThe required volume of bioreactor 2097 cubic meters
Biogas The volume of produced biogas 4766 6673 cubic meters/day
Organic fertilizers The volume of produced organic fertilizers per day 120 tons/day The volume of produced organic fertilizers per year 43883 tons/yr
Organic fertilizers moisture content 90,0% % Power production
Per hour 343 480 kWh/hPer day 8240 11536 kWh/dayPer year 3007 4210 MWh/yr
Heat productionPer hour 0,839 1,174 Gcal/hPer day 20 28 Gcal/dayPer year 7346 10285 Gcal/yr
Motor fuel equivalent
Daily output of motor fuel equivalent 2860 4003 liter/day Annual output of motor fuel equivalent 1043809 1461332 liter/year
natural gas equivalentDaily output of natural gas equivalent 2860 4003 cubic meters/dayAnnual output of natural equivalent 1043809 1461332 cubic meters/yr
1.The energy characteristics of bioreactor utilizing manure.
ParametrValue
UnitsMin Max
The needed volume of bioreactor 3240 cubic meters
Biogas
The volume of produced biogas 8576 12388cubic
meters/day
Organic fertilizers
The volume of produced organic fertilizers per day 156 tons/day
The volume of produced organic fertilizers per year 57049 tons/yr
Organic fertilizers moisture 90,0% %
Power production
Per hour 618 892 kW/h
Per day 14828 21417 kW/day
Per year 5412 7817 MW/yr
Heat production
Per hour 1,5 2,1 Gcal/h
Per day 36 52 Gcal/day
Per year 13219 19094 Gcal/yr
Motor fuel equivalent
Daily output of motor fuel equivalent 5145 7433 liter/day
Annual output of motor fuel equivalent 1878199 2712917 liter/year
natural gas equivalent
Daily output of natural gas equivalent 5145 7433cubic
meters/day
Annual output of natural equivalent 1878199 2712917 cubic meters/yr
2. The energy characteristics of bioreactor utilizind manure + 30% silo.
biogas plant price calculationParameter thousand rbl
Price of technological equipment, 28712
Price of design and technological documentation (working design)
2316
Construction and installation, putting into operation, technological supervision, staff training
11652
Total price of biogas system 42680
Price of cogeneration installation 37000
Total 79680
Preliminary economic estimatePrice of biogas installation, thousand rbl. 80000
Annual operational expenditures for newly introduced installation
Wages of 5 service staff workers (85 thousand rbl per person of the annual wage fund), thousand rbl.
425
Annual maintanace expenditures - 1% of total equipment price , thousand rbl
800
Basic repair expenditures - 2,6% of total price, thousand rbl 2080
Total expenditures 3305
Annual expenditures reduction
Utilized raw materials Manure Manure+30% silo
Reduction of heat charges, thousand rbl. 6976 12556
Value of sold fertilizers (50% of produced fertilizers), thousand rbl. 21942 28525
Total 28918 41081
Annual economic effect, thousand rbl. 25613 37776
Payback period, year 3 2
Project financing
The construction of biogas plant will be lead by «GRETA ENERY RU». Once the construction is complete, the plant will be leased to the corresponding farm.
The financing scheme: Loans – 90 % - 72000 thousand rbl. Budgetary financing – 0 % - 0 thousand rbl. Shareholders' equity – 10 % - 8000 thousand
rbl.
Resume
Annual economic effect from biogas plant - 25613 thousand rbl. (in case of animal manure recycling only), payback period - 3 years.
Adding 30% silo will change the annual economic effect to 37776 thousand rbl., payback period - 2 years.
ResumeBiogas plant will produce both heat and
power to partially cover the needs of JSC “Rodina” (greenhouses, biolaboratory, administrative buildings). Moreover biogas plant will effectively recycle biowaste – manure (127, 1 ton a day and produce environmentally friendly and highly effective fertilizers as a by-product (1 litre of which equals to 100 kg of manure used as fertilizers).
Important results of the project are saving of traditional fuel and reduction of greenhouse gases emissions into atmosphere.
Yeisk Wind Farm 50 MWt in Yeisk Wind Farm 50 MWt in Krasnodar regionKrasnodar region
Project descriptionProject descriptionConstruction of 50 MW wind power plant in Yeisk
municipality of Krasnodar Krai (25 wind generators with unit capacity 2 MW)
Project GoalsProject Goals- Environmental friendly power supply of recreation zone;
- Improvement of power supply reliability at the dead end of HV line.
Location of Yeisk wind farmLocation of Yeisk wind farm
В Э СВ Э С
50 МВт50 МВт
Site coordinates:
46.7 degrees of north latitude
38,3 degrees of east longitude
70 м
THE WIND MONITORING THE WIND MONITORING MAST AT THE YEISK SITEMAST AT THE YEISK SITE
- - Height of mastHeight of mast – 70 – 70 mm
- - Measurement of speeds and wind Measurement of speeds and wind directions at heightsdirections at heights 40, 50, 60 и 40, 50, 60 и 70 70 mm
- - Measurement of air temperature Measurement of air temperature
- - The independent power supply The independent power supply from solar modulesfrom solar modules
-- GSM data transmission GSM data transmission
Preliminary results of wind monitoring have Preliminary results of wind monitoring have shown higher than reference data wind shown higher than reference data wind potential at the site. potential at the site.
Preliminary calculated annual electricity Preliminary calculated annual electricity production - production - 170 170 mlnmln. . kWhkWh
Prefeasibility study resultsPrefeasibility study results
Economical effectiveness indicators Value
Total investment, billion rub 2,470
NPV, billion rub 3,114
IRR, % 20,1
Discounted payback time, years 7,6
Project economical profile
(at tariffs - 1 1.5-.5-11..88 rub rub.. /kWh/kWh ))
Krasnopolyanskaya HPP-2 at Mzimta river, Sochi
Project descriptionProject description
Construction of HPP with installed capacity 30 MW at river Mzimta in Sochi
Aim of the project
• Guaranteed power supply of Winter Olympic Games complex;
Economical effectiveness indicators Value
Total investment, billion rub 2,771
NPV, billion rub 631
IRR, % 27,1
Discounted payback time, years 12,8
Project economical profile (at tariffs - 1 1.8-3.0rub.8-3.0rub.. /kWh/kWh ) )
Thank you for your attention!