proyectos polonia

Updated Development Plan for meeting current and future electricity demand in the period 2010 - 2025 EXCERPT

DEVELOPMENT PLAN

for Meeting Current and Future Electricity Demand in the Period 2010 - 2025

Update for 2012-2016

EXCERPT

Konstancin - Jeziorna, July 2011

[A true translation from the Polish language]


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CONTENTS

1. INTRODUCTION ..............................................................................................................2

2. PLANNING PERIOD OF 2012-2016 ................................................................................2

3. FORECASTED POWER AND ELECTRICITY DEMAND COVERAGE ......................5

4. EFFECTS OF UPDATED TGDP IMPLEMENTATION ...................................................9

5. SUMMARY .....................................................................................................................10

6. GRID DIAGRAMS .........................................................................................................11

7. LIST OF VENTURES ......................................................................................................13

List of abbreviations TGDP – Development Plan for Meeting Current and Future Electricity Demand in the Period 2010 - 2025 URE – Polish Energy Regulatory Office EU – European Union PP – Power Plant CHP – Utility Combined Heat and Power Plant CU – Coal Unit GS – Combine Cycle Unit WF – Wind Farm NPS – National Power System NTS – National Transmission System DSO – Distribution System Operator IT – Information Technology MV – Medium Voltage system LV – Low Voltage system RES – Renewable Energy Sources GDP – Gross Domestic Product IRiESP - Instruction of Transmission System Operation and Maintenance NAP – National Action Plan EP 2030 – Energy Policy of Poland until 2030, November 2009 ENTSOE – European Network of Transmission System Operators for Electricity ATR – Autotransformer APKO –Automatic Anti-Swinging and Overloading Protection System SE - Substation OPGW – Optical Power Ground Wire


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1. INTRODUCTION

In view of: 1. Approval by President of the Polish Energy Regulatory Office (URE) of the „Draft

Development Plan for Meeting Current and Future Electricity Demand in the Period 2010 - 2025” (hereinafter „TGDP”) with respect to the year 2010, submitted by PSE Operator S.A. in 2009 (document DTA-431-23(48)/2009/ŁM of 29.12.2009)

2. Approval by President of the Energy Regulatory Authority of the „Draft Development Plan for Meeting Current and Future Electricity Demand in the Period 2010 - 2025” (hereinafter „A1 TGDP”) with respect to the year 2011, submitted by PSE Operator S.A. in 2010 (document DTA-4310-44(18)/2010/ŁM of 21.12.2010).

3. Approval by President of the Energy Regulatory Authority of the „Draft Development Plan for Meeting Current and Future Electricity Demand in the Period 2010 - 2025” (hereinafter „A2 TGDP”) with respect to the years 2012 to 2016, submitted by PSE Operator S.A. in 2011 (document DTA-4310-32(18)/2011/ŁM of 29.06.2011)

In fulfilling the obligation stipulated in Sec. III.E.1. „Use” of IRiESP (Instruction of Transmission System Operation and Maintenance), PSE Operator S.A. hereby publishes an excerpt from „Draft Update to Development Plan for meeting current and future electricity demand in the period 2010 – 2025 with respect to the years 2012-2016” approved by the President of the Energy Regulatory Authority in 2011

The general directions of development of the transmission grid, as presented in the draft update of TGDP submitted for approval in 2011, are in line with TGDP. The investment plans described in the present update, resulting from the approved TGDP for 2010-2025, were notified with regard to the most essential central planning documents: the draft National Spatial Management Concept, provincial spatial management plans and the program of government ventures aimed at the development of electrical power transmission grid.

2. PLANNING PERIOD OF 2012-2016

The planning period covers investment ventures required to execute the provisions of connection contracts for conventional units. The list of connection agreements concluded by PSE Operator S.A. for conventional units is shown in Table 1.

Table 1 - List of Conventional Units (including gas and steam units) which have signed agreements on connection to the transmission grid

Item Investment Applicant Type Date of conclusion

Power, MW

1 PP Bełchatów PGE Elektrownia Bełchatów S.A. CU 2005-04-01 858

2 1000 MW Unit PP Kozienice Elektrownia Kozienice S.A. CU 2008-12-23 1000

3 CHP Siekierki Vattenfall Heat Poland S.A. CU 2009-11-20 480

4 1000 MW Unit PP Ostrołęka C ENERGA Elektrownie Ostrołęka S.A.

CU 2010-02-02 1000

5 GS Unit Włocławek Polski Koncern Naftowy ORLEN S.A.

GS 2010-03-09 500

6 2x900 MW Units PP Opole PGE Elektrownia Opole S.A. CU 2010-03-31 1800

7 GS Unit CHP Stalowa Wola Elektrociepłownia Stalowa Wola S.A. GS 2011-06-16 422

Total: 6060 MW

The fulfilment by PSE Operator S.A. of the investment ventures for connection of new conventional sources is exposed to certain risks due to possible abandonment by the investor


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of implementation of the venture or postponement of its construction. Therefore, the schedule for completion of a venture resulting from facility connection may be changed or, in an extreme situation, may be discontinued if the investor withdraws from the construction project.

Just like in case of conventional sources, in the planning period of 2012 - 2016, PSE Operator S.A. focuses on creating conditions for connection and evacuation of power from RES (chiefly wind farms). The list of connection agreements concluded by PSE Operator S.A. for wind farms is shown in Table 2.

Table 2 – List of Wind Farms which have signed a Transmission Grid Connection Agreement Item Investment Applicant Type Date of conclusion Power,

MW 1 Kukowo-Dargoleza

WF Megawatt Polska Sp. z o.o. WF 2007-07-18 240

2 Chwiram WF Megawatt NW Sp. z o.o. WF 2010-03-08 120

3 Osieki WF Elektrownia Wiatrowa Gniewino Sp. z o.o. WF 2010-03-10 90

4 Choczewo WF WINDCOM Sp. z o.o. WF 2010-05-05 111

5 Darłowo WF Wind Invest Sp. z o.o. WF 2010-06-14 250

6 Potęgowo WF EWG Słupsk Sp. z o.o. WF 2010-08-20 320

7 Słupsk WF (Wierzbięcin II)

Green Power Polska Sp. z o.o. WF 2010-08-20 240

8 Malechowo WF EWG Energia Sp. z o.o. WF 2011-05-16 160

9 Pelplin WF WIND Sp. z o.o. WF 2011-06-20 190

Total: 1721 MW

Distribution of RES planned to be connected within Poland is shown in Diagram 1. The diagram shows distribution of power quantities applied for wind farm constructions, broken down by characteristic areas of the country, including: specific connection conditions and connection agreements signed.


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Diagram 1 Distribution of RES planned to be connected within Poland

Conditions issued for wind farm connection to NTS

Contracts signed for wind farm connection to NTS

The current status with respect to connection agreement signed and conditions issued for wind farm connection to NTS

Key

Diagram 1 illustrates that the main group of investors planning to construct wind farms are located in the northern and western parts of Poland, but the connection contracts signed apply to the northern part only.

PSE Operator S.A. specified connection conditions for wind farms for 4462.1 MW and signed connection contract for 1721 MW. It may mean that, in total, wind farms of 6183,1 MW will be connected to the transmission grid. In this respect, it should also be emphasized that PSE Operator S.A. agreed with DSO the conditions of connection to 110 kV grid for wind farms to the total power of ca. 9150 MW, of which more than 3000 MW applies to northern Poland. Additionally, also the wind farms operating and planned to be connected to MV and LV network should be taken into account, estimated at more than 2500 MW. From today's point of view it is difficult to determine how realistic construction of all the projects is, but their completion in accordance with the applications submitted by investors would lead to the ratios required by the EU law regarding the obligation to purchase renewable energy imposed on Poland being exceeded at least twice.


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PSE Operator S.A. has planned to develop the transmission grid in the northern part of Poland in order to evacuate the forecasted power surpluses from wind farms to the south, which should also enable meeting the obligations under the national energy policy.

Construction of technical infrastructure required for managing its operation and ensuring transmission system safety will also be continued simultaneously with the extension of the transmission grid. It applies amongst other things to:

- construction of reactive power compensation systems in accordance with the system requirements,

- construction of monitoring systems for management of the operation of the grid and its components,

- construction of management system for NPS operation, - construction of systems for energy market management in NPS, - construction of other telecommunication and IT systems supporting the core operator

activity. The actions undertaken with the aim of extending/enhancement of the transmission grid

were in most cases agreed with DSO as actions aimed to extend the closed 400, 220 and 110kV grid. In more distant future, actions are to be taken to prepare a closed grid development plan together with DSO.

The planning process takes into account the objectives and directions of activities indicated in the strategic national documents, and in the European Union law. In this respect, the objectives set forth in the Polish Energy Policy were given priority:

- increased safety of electricity supplies, - diversification of electricity generation structure by introduction of nuclear power - development of the use of renewable energy sources, - improvement of energy efficiency, - development of common electricity market by cross-border interconnections, - limitation of power sector impact upon the environment. Additionally,

the climate package objectives were also taken into consideration.

3. FORECASTED POWER AND ELECTRICITY DEMAND COVERAGE

The forecasts for power and electricity demand coverage remain unchanged and are compliant with the TGDP submitted and approved for 2010-2025. In the period of economic down-turn in Poland, no GDP decrease was observed, and the drop in electricity consumption in 2009 was compensated for as early as 2010.


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Diagram 2. Peak demand forecast according to Forecasted Scenario in MW

0

10 000

20 000

30 000

40 000

50 000

2005 2010 2015 2020 2025

Years

MW

Annual average forecasted growth of peak capacity demand in 2011-2025 will be 2.2%.

Diagram 3 Electricity demand forecast according to Forecasted Scenario in TWh

0,0

100,0

200,0

300,0

400,0

2005 2010 2015 2020 2025

Years

TWh

The average annual forecasted growth of electricity demand in 2011 -2025 will be 2.2 %.

Forecasted growth of heat capacity from new utility plants and RES (wind farms) is shown in Diagrams 4 and 5.


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Diagram 4. Forecasted growth of heat capacity from new utility plants

0

2000

4000

6000

8000

10000

12000

2011 2012 2013 2014 2015 2020 2025

Year

[MW

]Nuclear power plants

New capacities in new locations

New capacities in existing power plants

Diagram 5. Forecast of new renewable sources development

0

2000

4000

6000

8000

10000

2010 2015 2020 2025

Year

[MW

]

Biomass/Biogas

Hydro

Wind

Schedule of changes to RES maximum output capacity is based on the data of the National Action Plan with respect to energy from renewable sources (NAP) - for the years 2011-2020 and information contained in EP 2030 - for the years 2021-2025. Assumptions for anticipated cross-border exchange volumes have not been changed. Nevertheless, it should be emphasized that with respect to interconnections with the Ukrainian system (750 kV line) and Belarusian one (construction of 400 kV Narew – Roś line), the deadline for their completion depends on carrying out the procedures for making the


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transmission capacities available and arrangements with the foreign partner. Additionally, the increase of export capacities regarding the interconnection with Sweden depends on expansion of the NTS in the north of Poland and construction of new generation sources in this area.

The increase of import and export potential of NPS are based on the following planned investment ventures connected with extension of cross-border interconnections:

A. Asynchronous: - Construction of Poland-Lithuania interconnection, to include double circuit 400 kV line Ełk

(PL) – Alytus (LT) with the required enhancement of the Polish and Lithuanian transmission system. Power exchange will be performed through direct current links on Lithuanian side in Alytus substation. The connection is planned to be started up in 2015 (Phase I) and conditions for target volume of exchange are planned to be accomplished around 2020 (Phase II).

- Re-starting the Poland-Ukraine interconnection at the voltage of 750 kV. Two cooperation variants are taken into consideration: through direct current links of 2x600 MW to be installed in Rzeszów substation or in the form of parallel operation of the Ukrainian system with ENTSOE. The connection is planned to be started up in 2015 at the earliest.

- Construction of Poland-Belarus interconnection, including double circuit line 400 kV Narew -Roś with DC link on the Belarusian side in Roś substation. The inactive 220 kV Białystok - Roś line will be used to construct a new line. The connection is planned to be started up in 2015 at the earliest.

B. Synchronous - Construction of transformer phase shifters on the existing Poland-Germany interconnections

and connecting the Krajnik-Vierraden 400 kV line. Start-up of the phase shifters is planned for 2014.

- Construction of third Poland-Germany interconnection includes construction of double circuit 400 kV line connecting a substation in the western part of NTS with Eisenhuttenstadt substation on the side of Germany. The connection is planned to be started up in 2020 at he earliest.


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4. EFFECTS OF UPDATED TGDP IMPLEMENTATION

The tables and diagrams below show effects of ventures included in the said TGDP update. Table 3. Effects of investment ventures for transmission lines in the period 2012-2016

Diagram 6. Effects of investment ventures for 400 kV transmission lines

76124

167

1098

1377

127

722

1148

1250 1250

0

200

400

600

800

1000

1200

1400

2012 2013 2014 2015 2016

Year

km

new modernized

Diagram 7. Effects of investment ventures for 220 kV transmission grids:

0 0 137

11583 83

470

734

842

0

100

200

300

400

500

600

700

800

900

2012 2013 2014 2015 2016

Year

km

new modernized


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Table 4. Effects of investment ventures with respect to ATR installation in [MVA]

Diagram 8. Effects of investment ventures with respect to ATR installation in [MVA]

0

1000

2000 20002500

1800

3030

58206150

8610

0

1925

2795 2795

3345

0

1000

2000

3000

4000

5000

6000

7000

8000

9000

2012 2013 2014 2015 2016

Year

MV

A

400/220 400/110 220/110

5. SUMMARY

Taking into consideration the external conditions and obligations imposed under the Energy Law, PSE Operator S.A. should have the capacity to implement the ventures included in the plan and to provide funds on a long-term basis from its own resources (tariffs) and from external sources of financing. Ensuring adequate financing for the planned investment outlays is a pre-condition to implementing the planned investments aimed at ensuring national energy safety.

The Polish legal system regulating the investment processes of line facilities calls for changes and initiatives to make it more efficient encounter numerous obstacles. For these reasons the grid investments required to ensure the safety of NPS are either not implemented or implemented with substantial delays. It poses considerable risk of Poland and PSE Operator not being able to meet the obligations contained in the Polish Energy Policy, EU Directives, as well as the Polish Energy Law. Amendments to the current laws are necessary to eliminate the existing barriers and to enable reduction of twenty-year delays in extension/enhancement of the transmission grid.


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6. GRID DIAGRAMS

Diagram 9 shows the diagram of transmission grid - as of 2011. Diagram 9. Transmission grid diagram as at 2011

Diagram 10 shows a diagram of transmission grid with highlighted investments planned for 2012 to 2016.

400 kV temporary operating at 220 kV450 kV DC cable


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Diagram 10. Transmission grid diagram in 2011

400 kV temporary operating at 220 kV450 kV DC cableCompleted investment venturesInvestment ventures in progress

Key

Industrial grid diagram with highlighted investments scheduled for 2012-2016


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7. LIST OF VENTURES

The list of ventures scheduled for 2012-1016 is presented in Table 5.

Table 5. List of Ventures Scheduled for 2012-2016. Item Venture

1 PSE-CENTRE AREA

1.1. 220/110 Ełk Substation

1.1.1 Enhancement of 220/110 kV Ełk substation to include 400 kV switchgear(Phase I and II)

1.1.2 Installation of 400/110 kV 330 MVA TR in Ełk substation

1.2. 400 kV Łom ża Substation

1.2.1 Construction of Łomża 400 kV substation

1.3. 400/110 kV Narew Substation

1.3.1 Enhancement of 400 kV switchgear in 400/110 kV Narew substation (for Ostrołęka)

1.3.2 Enhancement of 400/110 kV Narew substation

1.3.3 Installation of 400/110 kV 330 MVA TR in Narew substation

1.3.4 Installation of reactor at 400 kV switchboard in Narew substation

1.4. 400/220/110 kV Ołtarzew Substation

1.4.1 Construction of 400/220/110 kV Ołtarzew substation

1.4.2 Installation of 400/220 kV 500 MVA TR in Ołtarzew substation



1.5. 220/110 Ostroł ęka Substation

1.5.1 Enhancement of Ostrołęka substation to include 400 and 110 kV switchgear and modernization of 220

kV switchboard to the extent required for connection

1.5.2 Enhancement of Ostrołęka substation to include 400 and 110 kV switchgear and modernization of 220

kV switchboard

1.5.3 Installation of 400/220 kV 500 MVA TR in Ostrołęka substation

1.5.4 Installation of 400/110 kV 450 MVA TR in Ostrołęka substation

1.5.5 Installation of TR 220/110 kV 275 MVA in Ostrołęka substation (Phase III)

220/110 kV Pabianice Substation

1.6.1 Modernization of 220/110 Pabianice substation

1.6.2 Installation of TR 220/110 kV 275 MVA in Pabianice substation (Phase III)

1.6.3 Installation of TR 220/110 kV 275 MVA in Pabianice substation (Phase III)

1.7. 220/110 kV Piaseczno Substation

1.7.1 Modernization and enhancement of 220 kV switchgear in 220/110 kV Piaseczno substation

1.8. 400/110 kV Płock Substation

1.8.1 Enhancement of 400/110 kV Płock substation

1.9. 400/220 kV Rogowiec Substation

1.9.1 Modernization of 400/220 kV Rogowiec substation

1.9.2 Modernization of APKO II Phase in Rogowiec substation


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1.10. 400/110 kV Siedlce Ujrzanów Substation

1.10.1 Construction of 400/110 kV Siedlce Ujrzanów substation

1.10.2 Installation of 400/110 kV 330 MVA TR in Siedlce Ujrzanów substation

1.10.3 Enhancement of Siedlce Ujrzanów substation

1.10.4 Installation of reactor at 400 kV switchgear in Siedlce Ujrzanów substation

1.11. 400 or 400/110 kV Stanisławów Substation

1.11.1 Construction of 400 kV or 400/110 kV Stanisławów substation

1.12. 220/110 kV Warszawa Siekierki Substation

1.12.1 Construction of 220/110 kV Warszawa Siekierki substation

1.13. 400 kV Ełk - Polish Border line (direction: Alytus)

1.13.1 Construction of 400 kV Ełk - Polish Border line (direction: Alytus)

1.14. 400 kV Ełk - Łom ża Line

1.14.1 Construction of 400 kV Ełk – Łomża line

1.15. 400 kV Kozienice - Ołtarzew Line

1.15.1 Construction of 400 kV Kozienice – Ołtarzew line

1.16. 400 kV Kozienice - Siedlce Ujrzanów Line

1.16.1 Construction of 400 kV Kozienice - Siedlce Ujrzanów line

1.17. 220 kV Kozienice - Mory/Piaseczno Line

1.17.1 Modernization of 220 kV Kozienice – Mory/Piaseczno line Phase II

1.18. 400 kV Miłosna - Siedlce Ujrzanów Line

1.18.1 Construction of 400 kV Miłosna - Siedlce Ujrzanów line

1.19. 400 kV Miłosna - Mo ściska - Rogowiec Line

1.19.1 Modernization of 400 kV Miłosna – Mościska – Rogowiec line with power connection to Ołtarzew

substation 1.20. 400 kV Miłosna - Płock Line

1.20.1. Modernization of 400 kV Miłosna – Płock line

1.21. 400 kV Narew - Łom ża - Ostroł ęka Line

1.21.1 Construction of 400 kV Narew - Łomża – Ostrołęka line

1.22 400 kV Ostroł ęka - Stanisławów Line

1.22.1 Construction of 400 kV Ostrołęka - Stanisławów line

1.23. 400 kV Ostroł ęka - Olsztyn M ątki Line

1.23.1 Construction of 400 kV Ostrołęka - Olsztyn Mątki line

1.24. 220 kV Janów - Rogowiec Line

1.24.1 Modernization of 220 kV Janów – Rogowiec line

1.25. 220 kV Piotrków - Rogowiec Line

1.25.1 Modernization of 220 kV Piotrków – Rogowiec line

1.26. 220 kV Pabianice - Rogowiec Line

1.26.1 Modernization of 220 kV Pabianice – Rogowiec line

1.27. 220 kV Warszawa Siekierki - Piaseczno Cable Line

1.27.1 Construction of 220 kV Warszawa Siekierki – Piaseczno cable line

1.28. 220 kV Janów - Piotrków Line

1.28.1 Modernization of 220 kV Janów - Piotrków line


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1.29. 220 kV Janów - Zgierz - Adamów Line

1.29.1 Modernization of 220 kV Janów - Zgierz - Adamów line

2 PSE EAST AREA

2.1. 220/110 kV Abramowice Substation

2.1.1 Modernization (Enhancement) of 220/110 kV Abramowice substation

2.2. 400/220/110 kV Chełm Substation

2.2.1 Enhancement of Chełm substation to include 400 kV switchgear

2.3. 220/110 kV Kielce Piaski Substation

2.3.1 Enhancement of 220/110 kV Kielce Piaski substation

2.4. 400/220/110 kV Kozienice Substation

2.4.1 Thermal modernization of buildings at the depot facilities at Kozienice substation and modernization of

access road to the depot facilities

2.4.2 Enhancement of 400/220/110 kV Kozienice substation to connect Unit 11 of Kozienice Power Plant

2.4.3 Enhancement of 400/220/110 kV Kozienice substation

2.5. 400/110 kV Lublin System Substation

2.5.1 Enhancement of 400/110 kV Lublin System substation

2.6. 400/110 kV Ostrowiec Substation

2.6.1 Enhancement and modernization of the station and installation of AT 400/110 kV MVA in Ostrowiec

substation 2.6.2 Installation of 400/110 kV 330 MVA TR in Ostrowiec substation

2.7. 220/110 kV Radkowice Substation

2.7.1 Modernization and enhancement of 220/110 kV Radkowice substation

2.8. 750/400/110 kV Rzeszów Substation

2.8.1 Enhancement of Rzeszów substation

2.8.2 Installation of reactor at 400 kV switchgear in Rzeszów substation

2.9. 220/110 kV Stalowa Wola Substation

2.9.1 Enhancement of Stalowa Wola Substation to include 220 kV switchgear

2.9.2 Installation of TR 220/110 kV 275 MVA in Stalowa Wola substation (Phase III)

2.9.3 Installation of TR 220/110 kV 275 MVA in Stalowa Wola substation (Phase III)

2.10. 400 kV Chełm - Lublin Systemowa Line

2.10.1 Construction of 400 kV Chełm – Lublin Systemowa line

2.11. 400 kV Kozienice - Ostrowiec Line

2.11.1 Modernization of 400 kV Kozienice – Ostrowiec line

2.12. 220 kV Kielce Piaski - Radkowice Line

2.12.1 Construction of 220 kV Kielce Piaski – Radkowice line

2.13. 220 kV Stalowa Wola Line - tap into Abramowice - Chmi elów Line

2.13.1 Construction of 220 kV Stalowa Wola line – tap into Abramowice - Chmielów Line

2.14. 220 kV Kielce - Joachimów Line

2.14.1 Modernization of 220 kV Joachimów – Kielce line

3 PSE SOUTH AREA

3.1 220/110 kV Blachownia Substation

3.1.1 Enhancement of 220/110 kV Blachownia substation


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3.1.2 Connection of 220 kV Groszowice – Kędzierzyn line to Blachownia substation

3.1.3 Installation of 220/110 kV 275 MVA TR in Blachownia substation

3.2. 400/220 kV Byczyna Substation

3.2.1 Modernization and extension of Byczyna substation and connection of 400 kV line

3.2.2 Installation of 400/220 kV 500 MVA TR in Byczyna substation

3.3. 400/110 kV Dobrze ń Substation

3.3.1 Enhancement of 400 kV switchgear in Dobrzeń substation

3.3.2 Installation of 400/110 kV 330 MVA TR in Dobrzeń substation

3.3.3 Installation of 400/110 kV 330 MVA TR in Dobrzeń substation

3.4. 220/110 kV Halemba Substation

3.4.1 Modernization of 220/110 kV Halemba substation

3.5. 220/110 kV Jamki Substation

3.5.1 Modernization of 220/110 kV Jamki substation

3.6. 220/110 kV Komorowice Substation

3.6.1 Modernization of Komorowice substation

3.7. 220/110 kV Kopanina Substation

3.7.1 Modernization of 220/110 kV Kopanina substation

3.8. 220/110 kV Lubocza Substation

3.8.1 Enhancement and modernization of 220/110 kV Lubocza substation

3.9. 400/220 kV Podborze Substation

3.9.1 Construction of 400/220 kV Podborze substation

3.9.2 Connection of 220 kV Kopanina – Liskovec line to Podborze substation

3.9.3 Connection of 220 kV Bujaków – Liskovec line to Podborze substation

3.9.4 Connection of 220 kV Bieruń-Komorowice line to Podborze substation

3.9.5 Connection of 220 kV Czeczott – Moszczenica line to Podborze substation

3.9.6 Connection of 400 kV Nosovice – Wielopole line to Podborze substation

3.10. 220/110 kV Siersza substation

3.10.1 Modernization of 220/110 kV Siersza Substation

3.11. 400/220/110 kV Skawina Substation

3.11.1 Enhancement of Skawina Substation to include 400 kV and 110 kV switchgear

3.11.2 Construction of 400 kV Skawina line – tap into Tarnów – Tucznawa line

3.11.3 Construction of 400 kV Skawina line – tap into Rzeszów – Tucznawa Line

3.11.4 Installation of 400/110 kV 450 MVA TR in Skawina substation

3.12. 400/110 kV Tarnów Substation

3.12.1 Enhancement of Tarnów Substation

3.12.2 Installation of reactor at 400 kV switchboard in Tarnów substation

3.13. 400 kV Mikułowa - Czarna - Joachimów Line

3.13.1 Modernization of 400 kV Mikułowa - Czarna - Joachimów line

3.14. 400 kV Dobrze ń line - tap into Pasikurowice - Wrocław Line

3.14.1 Construction of 400 kV Dobrzeń line - tap into Pasikurowice - Wrocław line

3.15. 400 kV Wielopole - Blachownia, K ędzierzyn - Groszowice Lines

3.15.1 Construction of 400 kV line along the 220 kV Wielopole - Blachownia, Kędzierzyn - Groszowice line


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3.16 220 kV kV Byczyna - Jamki, Byczyna - Koksochemia Line

3.16.1 Modernization of 220 kV Byczyna-Jamki, Byczyna -Koksochemia line

3.17. 400 kV Wielopole - Joachimów, Wielopole - Rokitnica Line

3.17.1 Modernization of 400 kV Wielopole-Joachimów, Wielopole - Rokitnica line

3.18. 400 kV Wielopole - Joachimów, Tucznawa - Rogowiec Li ne

3.18.1 Modernization of 400 kV Wielopole-Joachimów, Tucznawa-Rogowiec line

1.19. 400 kV Tucznawa - Rogowiec, Joachimów - Rogowiec 3 L ine

3.19.1 Modernization of 400 kV Tucznawa-Rogowiec, Joachimów-Rogowiec line

3.20. Lines 220 kV within PSE-Południe SA

3.20.1 Comprehensive modernization of 220 kV lines within PSE-South (which in January 2010 were in the

4 PSE WEST AREA

4.1. Mikułowa - Świebodzice Line

4.1.1 Construction of 400 kV Mikułowa - Świebodzice line along the course of 220 kV line

4.2. Baczyna Substation

4.2.1 Construction of 400/110 kV Baczyna Substation with connection of Krajnik - Plewiska line

4.2.2 Installation of 400/110 kV 450 MVA TR in Baczyna Substation

4.3. Czarna Substation

4.3.1 Enhancement of 400 kV switchgear in Czarna Substation

4.4. Czerwonak Substation

4.4.1 Installation of TR 220/110 kV 275 MVA in Czerwonak Substation (Phase III)

4.4.2 Modernization of Czerwonak Substation

4.5. Glinki Substation

4.5.1 Enhancement of 220/110 kV Glinki Substation

4.5.2 Installation of TR 220/110 kV 275 MVA in Glinki Substation (Phase III)

4.6. Krajnik Substation

4.6.1. Modernization and enhancement of 400/220 kV Krajnik Substation

4.6.2 Installation of phase shifters at Krajnik – Vierraden Line

4.7. Kromolice Substation

4.7.1 Construction of 400/110 kV Kromolice Substation

4.7.2 Installation of TR 400/110 kV 450 MVA in Kromolice Substation (Phase III)

4.8. Leszno Gronowo Substation

4.8.1. Modernization of 220/110 kV Leszno Gronowo Substation (Phase II)

4.9. Leśniów Substation

4.9.1 Modernization of 220/110 kV Leśniów substation, including start-up of third ATR

4.10. Mikułowa Substation

4.10.1 Modernization and enhancement of 220/110 kV Mikułowa-Hagenwerder Substation

4.10.2 Installation of phase shifters on Mikułowa – Hagenwerder Line

4.11. Ostrów Substation

4.11.1 Enhancement of Ostrów Substation

4.11.2 Installation of 400/110 kV 450 MVA TR in Ostrów Substation

4.11.3 Installation of reactor at 400 kV switchboard in Ostrów Substation


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4.12. Pasikurowice Substation

4.12.1 Enhancement of 400/110 kV Pasikurowice Substation

4.13. Piła Krzewina Substation

4.13.1 Enhancement of Piła Krzewina Substation to include 400 kV switchgear

4.13.2 Enhancement of 110 kV switchgear in Piła Krzewina Substation for WF

4.13.3 Modernization of Piła Krzewina Substation

4.14. Plewiska Substation

4.14.1 Modernization of the generator building in Plewiska Substation and replacement of generators with 4.15. Polkowice Substation

4.15.1 Enhancement of Polkowice Substation to include 400 kV switchgear

4.15.2 Installation of 400/110 kV 450 MVA TR in Polkowice Substation

4.15.3 Installation of 400/220 kV 500 MVA TR in Polkowice Substation

4.16. Pomorzany Substation

4.16.1 Enhancement of Pomorzany Substation to include 220 kV switchgear

4.16.2 Installation of 220/110 kV 275 MVA TR in Pomorzany Substation

4.17. Recław Substation

4.17.1 Enhancement of Recław Substation to include 220 kV switchgear

4.17.2 Installation of 220/110 kV 275 MVA TR in Recław Substation

4.18. Świebodzice Substation

4.18.1 Enhancement of 220/110 kV Świebodzice substation to incluce 400 kV switchgear

4.18.2 Installation of TR 400/110 kV 450 MVA in Świebodzice Substation (Phase III)

4.19. Wrocław Substation

4.19.1 Construction of 400/110 kV Wrocław Substation

4.20. Żukowice Substation

4.20.1 Modernization of Żukowice Substation

4.21. Baczyna - Krajnik Line

4.21.1 Construction of 400 kV Baczyna – Krajnik Line

4.22. Czarna - Polkowice Line

4.22.1 Construction of 400 kV Czarna – Polkowice Line

4.23. Glinki - Recław Line

4.23.1 Construction of 220 kV Glinki – Recław line

4.24. Gorzów - Le śniów line

4.24.1 Modenization of 220 kV Gorzów – Leśniów line

4.25. Kromolice - P ątnów Line

4.25.1 Construction of 400 kV Kromolice – Pątnów line along the route of 220kV Plewiska - Konin line

4.25.2 Putting 400 kV Kromolice - Pątnów line to Pątnów substation with enhancement of Pątnów station

4.26. Krajnik - Pomorzany Line

4.26.1 Construction of 220 kV Krajnik – Pomorzany line

4.27. Mikułowa - Le śniów Line

4.27.1 Modernization of 220 kV Mikułowa – Leśniów line

4.28. Adamów - Konin line - circuit I

4.28.1 Modernization of 220 kV Adamów - Konin line - circuit I


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4.29. Adamów - Konin line - circuit II

4.29.1 Modernization of 220 kV Adamów - Konin line - circuit II

4.30. Plewiska - Pozna ń Południe Line

4.30.1 Re-construction of 220 kV Plewiska - Poznań Południe line in single-circuit section

4.31. Pasikurowice - Wrocław Line

4.31.1 Construction of 400 kV Pasikurowice – Wrocław Line

4.32. Piła Krzewina - Plewiska Line

4.32.1 Construction of 400 kV Piła Krzewina - Plewiska line

4.33. Wrocław - Świebodzice Line

4.33.1 Construction of 400 kV line from Wrocław substation to Świebodzice substation along the 220 kV

Świebodzice - Klecina line 4.34. Purchase of improvements

4.34.1 Purchase of improvements for lines: Świebodzice-Klecina and Plewiska-Piła Krzewina resulting from

re-construction of the lines to remove collision with motorways constructed by GDDKiA (General

Directorate for National Roads and Motorways). 4.35. The line: Polish border - Gubin - Zielona Góra - Pl ewiska II - Plewiska

4.35.1 Third connection defined as double circuit 400 kV line: Polish border-Gubin-Zielona Góra-Plewiska II –

Plewiska 4.36. Mikułowa - Świebodzice - Z ąbkowice - Dobrze ń Line

4.36.1 Double circuit 400 kV line: Mikułowa – Świebodzice - Ząbkowice – Dobrzeń

5 PSE NORTH AREA

5.1. 220/110 kV Bydgoszcz Zachód Substation

5.1.1 Enhancement of 400 kV switchgear in Bydgoszcz Zachód Substation

5.1.2 Enhancement of 220/110 kV Bydgoszcz Zachód Substation

5.1.3 Replacement of AT 220/110 kV 275 MVA in Bydgoszcz Zachód Substation (Phase III)

5.2. 400/220/110 kV Dunowo Substation

5.2.1 Enhancement of 400 and 100 kV switchgear in Dunowo Substation

5.2.2 Installation of AT 400/110 kV 450 MVA in Dunowo Substation (WF)

5.2.3 Connection of Darłowo 250 MW wind farm to 400/220/110 kV Dunowo substation

5.2.4 Enhancement of Dunowo Substation

5.2.5 Installation of TR 400/110 kV 450 MVA in 400/220/110 kV Dunowo Substation( DSO) (Phase III)

5.3. 400/110 kV Elbl ąg Substation

5.3.1 Construction of 400/110 kV Elbląg Substation with GBL-OLM line introduction

5.3.2 Installation of AT 400/110 kV 450 MVA in Elbląg Substation

5.4. 400/110 kV Gdańsk Błonia Substation

5.4.1 Enhancement of 400/110 kV Gdańsk Błonia Substation

5.5. 400/110 kV Gdańsk Przyja źń Substation

5.5.1 Construction of 400/110 kV Gdańsk Przyjaźń Substation with connection of Żarnowiec - Gdańsk

5.6. 400/220/110 kV Grudzi ądz Line

5.6.1 Enhancement of 400/220/110 kV Grudziądz Line

5.6.2 Installation of AT 400/110 kV 450 MVA in Grudziądz Substation

5.6.3 Installation of reactive power compensation devices in Grudziądz Substation


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5.7. 220/110 kV Jasiniec Substation

5.7.1 Enhancement of 220/110 kV Jasiniec Substation

5.8. 400/220/110 kV Olsztyn M ątki Substation

5.8.1 Enhancement of 400/110 kV Olsztyn Mątki Substation

5.8.2 Installation of reactor at 400 kV switchgear in Olsztyn Mątki Substation

5.9. 400/110 kV Pelplin Substation

5.9.1 Construction of 400/110 kV Pelplin Substation

5.9.2 Installation of AT 220/110 kV 160 MVA in Pelplin Substation (with SE OST)

5.10. 400/110 kV Słupsk Substation

5.10.1 Enhancement of 400 and 110 kV switchgear at Słupsk Substation

5.10.2 Installation of AT 400/110 kV 450 MVA in Słupsk Substation (DSO) (Phase III)

5.10.3 Installation of AT 400/110 kV 450 MVA in Słupsk Substation (WF) (Phase III)

5.11. 220/110 kV Włocławek Azoty Substation

5.11.1 Enhancement of 220 kV switchgear in Włocławek Azoty Substation

5.12. 400/110 kV Żarnowiec Substation

5.12.1 Enhancement of 110 kV switchgear in Żarnowiec Substation for WF

5.12.2 Installation of AT 400/110 kV 450 MVA in Żarnowiec Substation for WF (Phase III)

5.13. 400/110 kV Żydowo Kierzkowo Substation

5.13.1 Construction of 400/110 kV Żydowo Kierzkowo Substation

5.13.2 Installation of AT 220/110 kV 160 MVA in Żydowo Kierzkowo Substation (with SE PAB)

5.14. 400 kV Grudzi ądz - Pelplin Line

5.14.1 Construction of 400 kV Grudziądz – Pelplin Line

5.15. 400 kV Pelplin - Gda ńska Przyja źń Line

5.15.1 Construction of 400 kV Pelplin - Gdańsk Przyjaźń Line

5.16. 400 kV Pątnów - Jasiniec Line

5.16.1 Construction of 400 kV Pątnów - Jasiniec Line

5.17. 400 kV Jasiniec - Grudzi ądz line

5.17.1 Construction of 400 kV Jasiniec - Grudziądz Line

5.18. 400 kV Piła Krzewina - Bydgoszcz Zachód Line

5.18.1 Construction of 400 kV Piła Krzewina - Bydgoszcz Zachód Line

5.19. 400 kV Piła Krzewina - Żydowo Line

5.19.1 Construction of 400 kV Piła Krzewina – Żydowo Line

5.20. 400 kV Płock - Olsztyn M ątki Line

5.20.1 Construction of 400 kV Płock - Olsztyn Mątki Line

5.21. 400 kV Żydowo - Gda ńsk Przyja źń Line

5.21.1 Construction of 400 kV Żydowo - Gdańsk Przyjaźń Line

5.22. 400 kV Żydowo - Słupsk Line

5.22.1 Construction of 400 kV Żydowo - Słupsk Line

5.23. 400 kV Grudzi ądz Węgrowo - Gda ńsk Blonia Line

5.23.1 Modernization of 400 kV Grudziądz Węgrowo - Gdańsk Blonia Line with replacement of earth wire on

OPGW

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