DEVELOPMENT PLAN for meeting the current and future demand for electricity for the years

DEVELOPMENT PLAN

for meeting the current and future demand for electricity

for the years 2010 - 2025

Update for the period of 2014 - 2018

EXTRACT

Table of Contents

1.

Introduction

... 3

2.

Planning period 2014 – 2018

... 4

3.

Categories of plans / investment tasks of PRSP Updates

... 5

3.1

Projects financed from EU funds

... 5

KSP development program for the Poland-Lithuania connection

... 5

The expansion project of the power station Słupsk in order

to connect wind farms

... 5

3.2

Cross-border connections

... 6

3.3

Connections

... 6

3.4

Modernization of the population of transformers

... 7

3.5

Compensation of reactive power in KSP

... 7

4.

The effects of the implementation of investment plans in the years 2014-2018

(including the plans ending after 2018)

... 8

5.

Summary

... 8

6.

List of plans / investment tasks

... 8

1. Introduction

Bearing in mind that in the period from the PRSP Update of 23 October 2012. (agreed upon by the President of the ERO for the term from 2013 to 2017 on 4 February 2013) PSE S.A.:

1. issued four additional conditions for connection for the total capacity of 2107.5 MW, including two concerning Wind Farms with a total capacity of 1165.5 MW;

2. concluded 5 new contracts for connection for the total capacity of 1 156 MW, including three contracts for wind farms with a total capacity of 456 MW,

and in connection with the approval of the Investment Plan for the period 2014 to 2018 by the Board of PSE S.A. (Resolution No. 569/50/2013 dated 25 September 2013) the circumstances defined in Art. 16 paragraph 14 of the Energy Law resulting in the need to develop the project of a further Update of the PRSP occurred.

The submitted Revision includes the investments tasks planned for the years 2014 through 2018. Changes compared with the previous Update of the PRSP for the period 2013 - 2017 result mainly from the following reasons:

o shifts in time of the planned dates of commencement of the implementation of tasks or the extension of attainment deadlines due to external causes, including primarily due to shifting deadlines of starting new blocks or suspending the decision of investors building generating units, and delays in the implementation of renewable energy sources, mainly wind farms, o lack of positive settlements of the proceedings for the award of the contract and thus the need

to carry out repeated proceedings,

o extension of procurement procedures as a result of appeals of tenderers or extending the date of opening of tenders,

o update expenditures as a result of unresolved procurement procedures,

o changes in the schedules of the implementation of tasks arising from unforeseen network events,

o changes in the material scope of investment tasks planned for implementation resulting from the accepted concept of their implementation,

o cancellation of investment tasks planned for implementation.

System analysis performed to determine the conditions for connection defined the new modernization tasks. Among the new tasks, not included in the PRSP for the period 2010 - 2025 arising from the issued the connection conditions and connection agreements include:

1. Modernization of the 400 kV line Płock-Miłosna (Oltarzew) in order to adapt to the increased power flows,

2. Modernization of the 2 x 400 kV line Żarnowiec-Gdańsk/Gdańsk Przyjaźń-Gdańsk Błonia in order to adapt to the increased power flows,

3. Modernization of the 400 kV line Krajnik-Morzyczyn in order to adapt to the increased power flows,

4. Expansion of the 400/110 kV substation Żarnowiec in order to join the IMF Baltica3.

The submitted PRSP Revision for the years 2014 - 2018 includes the details of the planned investment plans divided by each year. It should be emphasized that the directions of expansion of the transmission network included in the PRSP Update draft, submitted for negotiations, are consistent with the previous PRSP Update. The investments related to the connection of new generation sources to the grid, which apply to both the conventional and RES units were changed, and new tasks arising from the technical assessments were introduced.

Changes in the planned expansion of the transmission grid included in the PRSP Update are, among others, the result of decisions of investors planning to build power generation sources. The need to

create the network conditions for the connection of new generation units results from the implementation of one of the primary responsibilities of PSE S.A., namely ensuring the security of energy supply and electric power in different time horizons. Therefore, any change in the location of new generation sources, or the changes concerning the planned date of their launch result in changes in the planned expansion of the transmission network.

2. Planning period 2014 – 2018

Revision of PRSP for the term 2014 - 2018 includes:

■ continued investment projects (started before 2014) - resulting from the ongoing Plan of Investments PSE S.A. for 2013,

■ intentions / investment projects newly launched from 2014 onwards, which at the date of the submission of the proposals to this plan by the organizational units, had defined property levels and specific estimated capital expenditures, and which were approved by the Board of PSE SA and acquired, if it results from the provisions of the Statute of PSE SA, the required corporate approvals,

■ investment plans funded under the works related to the preparation of plans / investment tasks,

■ purchases of finished capital goods,

■ reserve for the financing of expenditure, unforeseen at the stage of plan development. The source of investment initiatives are:

■ system analysis indicating the need for expansion of the transmission network, the construction of the 400 kV lines and the HV stations, and the need to increase the capacity the existing lines. The needs regarding the expansion of the transmission network result from the forecast of growth of customer demand for power and electricity, requirements of customers as regards supply reliability and the investments necessary for the connection and power output of the new units. The needs regarding the expansion of the transmission network also stem from EU legislation on the proportion of renewable sources RES in electricity production and the requirements relating to the expansion of cross-border connections,

■ connection applications concerning the construction and restoration of generation sources, the location of which determines the needs of network expansion for the creation of the conditions for the output of the planned capacity. The system analyses developed for the connection of generating units, of both conventional and RES type, show the need for expansion of the transmission network, the construction of the 400, 220 and 110 kV lines, as well as the need to increase the transmission capacity of the existing lines. The directions of the planned expansion of the transmission network are the result of actions stemming mainly from the planned connection of new generating units, including RES. The development of wind farms also creates new conditions for shaping the network, and in particular the links between the areas, their location through the network and the system sources,

■ network development plans prepared by the OSD (distribution system operator), from which results the need for the location of the new energy supply spots, i.e. the construction of HV substations. Integrating the meshed network development plans is also - after the restructuring of the electricity sector - the new part of the process of planning the development of the transmission network,

■ conclusions resulting from the assessment of the state of NPS operation conducted to date in two main areas:

 in the area of dispatching - the evaluation of power system operation carried out by the dispatch services, with respect to the operational reliability and capacity to meet the current demand for electricity,

 in the maintenance area - the evaluation of the technical state of the network and its individual components in the context of keeping the assumed parameters of faultless operation, led by the operational services.

The conclusions of the evaluations are an important element in the process of planning the development and modernization of the transmission network, as they are in fact crucial to the prospects of short-term and medium-term planning,

■ conclusions drawn from the analysis of the needs concerning the ICT infrastructure and buildings, purchase of finished capital goods and innovative work.

3. Categories of plans / investment tasks of PRSP Updates

3.1 Projects financed from EU funds

KSP development program for the Poland-Lithuania connection

The project to build a power connection between Poland and Lithuania is an important element in the creation of a common European energy market by closing the so-called Baltic ring. Therefore, the European Union, by Decision No 1364/2006/EC assigned a priority status to the project and participates in its costs.

The purpose of the " KSP development Programme as regards connections between Poland and Lithuania" (hereinafter the Program) is to create a connection with the transmission system of Lithuania in the national transmission system with the necessary reinforcement of the Polish transmission network in north-eastern Poland in order to ensure the quality and reliability of power supply for electricity customers and increase the security of its supply. For the purpose of obtaining funding from the aid funds, the investments included in the Programme are referred to as the "The electroenergetic connection of Poland-Lithuania " Project (hereinafter the Project), which was originally in Phase I (2015), has been divided into 6 applications for funding covering 11 investment tasks .

The electroenergetic connection of Poland-Lithuania Project, implemented by PSE SA, is cofinanced from the Infrastructure and Environment Operational Programme for the years 2007 -2013, Priority X "Energy security, including diversification of energy sources", Measure 10.1 "Development of electricity , natural gas and crude oil transmission systems, as well as the construction and reconstruction of natural gas storage facilities. "

The Phase I, for which the possibility of accounting for expenditure of OPI & E ends in 2015, includes the following investments:

 Construction of the 400/220/110 kV substation Ołtarzew,  Construction of 400 kV line Narew-Łomża-Ostrołęka,

 Expansion of the 220/110 kV substation Ostrołęka by adding a 400 kV switching station along with the modernization of the 220 kV switching station and construction of a new 110 kV switching station - Phase I,

 Expansion of the 400 kV switching station in the 400/110 kV substation Narew,  Construction of the400 kV line Ełk Bis-Łomża,

 Construction of the 400/110 kV substation Ełk Bis - Stage I and II,  Construction of the 400 kV substation Łomża

 Construction of the 400 kV line Miłosna- Siedlce Ujrzanów,  Construction of the 400/110 kV substation Siedlce Ujrzanów,

 Construction of the 400 kV line Ełk Bis- Border of the Republic of Poland (direction of Alytus),

 Construction of the 400 kV line Stanisławów.

The Poland- Lithuania connection will enable the transfer of power from Lithuania to Poland at the level of 500 MW.

The expansionproject of the power station Słupsk in order to connect wind farms

The project implementation is associated with the connection of renewable energy sources in the northern part of the country, i.e. Słupsk wind farm, Potęgowo wind farm and Drzeżewo IV wind farm with a total capacity of about 660 MW. The scheduled task will also implement the objective of strengthening the power supply of the OSD network by installing AT2 400/110 kV, 450 MVA autotransformer.

The aim of the investment is:

 ensuring the connection of wind farms to the transmission network and creating favourable conditions for the development of the renewable energy market, and thus supporting the process of diversification of sources of electricity generation at both the national and regional levels,

 strengthening the power supply of the transmission network in the area of the 400 kV "Northern Rail".

Expansion of the Słupsk substation is an investment that will contribute to the elimination of a significant barrier to the renewable energy development, which is the lack of a sufficiently developed transmission network in areas where the units of electricity generation from RES are constructed. Thanks to the realization of the project in the National Power System, conditions will be created for the connection of wind farms in the future.

3.2 Cross-border connections

Planning cross-border connections stems from the assumptions of the Polish Energy Policy until 2030 and action strategies for energy security policy of EU countries, including the network development plans drawn up within the ENTSO-E organization. The priority is the electroenergetic integration with the Baltic States (Lithuania, Latvia and Estonia), including the construction of an electroenergetic connection with Lithuania together with the expansion of the electroenergetic system in north-eastern Poland and the construction of a new connection with Germany. According to the assumptions cross-border connections should be developed, which affect the energy security of the national system.

The scheduled cross-border connections are implemented following a division into:

A. Synchronous cross section

Includes the expansion of the western part of the NPS to increase the possibility of exchange at the synchronous cross section, including the installation of phase shifters.

B. Asynchronous cross section

Includes international connections on the eastern border. In this area, the following intentions / investment projects related to the expansion of existing and construction of new cross-border connections are implemented, planned and considered:

■ Poland- Lithuania:

- the construction of a 2-track 400 kV line Ełk Bis- Border of the Republic of Poland (Alytus), together with the necessary expansion of the Polish transmission system are being implemented.

■ Poland- Ukraine:

- the implementation of the investment (restart of the 750 kV connection) is dependent on the arrangements with the operator of the transmission system in Ukraine.

3.3 Connections

The PRSP 2014 - 2018 Update includes the intentions / investment tasks related to the connection of new generation capacities to the transmission grid. The included connections relate to the conventional coal and gas-steam, as well as RES renewable energy generating units - wind farms (FW).

Connection of new generation capacities included in the PRSP 2014 - 2018 update is on different stages of implementation. Some of them have a signed contract for the connection (connection contract is the basis for the start of the preparation of pre-investment documentation, and the

implementation of design, as well as construction and assembly works), while for some the conditions for the connection were issued (connection conditions are the basis for the start of pre-investment works, are valid two years from the date of their determination, if an operator does not conclude a connection contract within two years from the date of the determination of the connection conditions, they lose their validity).

3.4 Modernization of the population of transformers

As part of the modernization of the transformer population in PSE SA, the task entitled. "Modernization of the population of 220/110 kV and 400/110 kV transformers - installing additional AT 220/110 kV and 400/110 kV in substations - Stage I is currently being executed.

In 2013, Stage V was launched, and in subsequent years of the planning period 2014-2018 the next stages of the project concerning the modernization of the population of transformers, i.e. stages VI and VII are planned for launch. The supply contract for the delivery of the transformers in the years 2013 - 2015 is also during implementation as part of stage IV intended for the tasks covered by the "KSP development Programme as regards connections between Poland and Lithuania".

The primary objective of the project, involving the exchange of auto-transformers and installing the additional auto-transformers (220/110 kV 275 MVA, 400/110 kV 330 MVA, 400/110 kV 450 MVA, 400/220 kV 500 MVA) is to ensure the continuity and reliability of power supply of the 110 kV distribution network, required by the currently existing contracts concluded with consumers.

The expected effects after the completion of the project are:

- improving the security of electricity supply,

- improving the effectiveness of the internal market,

- reduction of auto-transformers operating costs and the costs of transmission losses.

3.5 Compensation of reactive power in KSP

The optimal development of the network infrastructure is also associated with the need to ensure adequate reactive power reserves in the nodes of the transmission network in order to maintain the ability to adjust the voltage and maintain the required level of voltage stability. The basic range of the stepless control of the voltage level and reactive power in the transmission network is provided by synchronous generators cooperating with the regulators of the transformer voltage through the overload change of their transmission. Appropriately selected devices for reactive power compensation are used as an additional measure to control the voltages, including:

- chokes compensate for excess capacitive reactive power resulting from the natural generation of HV lines in the low load periods,

- capacitor banks compensating for the effect of HV lines at peak load periods (with transmission greater than natural),

- capacitive- inductive compensators of the SVC type.

Assessment of the voltage stability under various conditions of network operation made for the development of the "Transmission Network Development Plan for meeting the current and future demand for electricity in the years 2010 - 2025" and "Analysis of development needs" documents showed the need to install additional devices for reactive power compensation. These documents discuss in detail the issue of reactive power compensation in KSP in the long term perspective for the current and planned infrastructure.

The primary means of improving the stability of the transmission system is the construction of new transmission lines. Along with their construction it is essential to manage the devices for capacitive reactive power compensation, properly matched in terms of location, size, power, scope and level of voltage. It is connected with the necessity of installation of inductive, reactive power sources, which will provide compensation for transmission lines charging power in the low load periods.

Therefore, in the PRSP Update 2014-2018 the investment intention involving the purchase, supply and installation of compensation chokes is scheduled for implementation in the following stations: Narew, Olsztyn Mątki, Ostrow, Rzeszow, Siedlce and Tarnów Ujrzanów. The PRSP Update

2014-2018 includes the investment intention titled "Construction of the Ełk Bis - Stage I and II", the material scope of which also includes the supply and installation of compensation chokes.

4. The effects of the implementation of investment plans in the years 2014-2018

(including the plans ending after 2018)

- 1 638 km of new 400 kV circuits,

- 199km of modernized 400 kV circuits,

- 173km of new 220 kV circuits,

- 1 215km of modernized 220 kV circuits,

- installation of 44 transformers with a total capacity of 16 790MVA

- installation of 10 chokes with a total capacity 850Mvar

5. Summary

Given the external conditions and obligations arising from the Energy Law, PSE S.A. should have the ability to carry out tasks included in the PRSP and long-term financing of capital from their own resources (tariff) as well as external ones. Ensuring the appropriate level of capital funding sources is a necessary condition for the realization of planned investments necessary to ensure the current and long-term safe operation of the electricity transmission system. The ability to perform the material and financial scope of tasks and investment plans presented in the PRSP also largely depends on the gradual resolution of the identified problems associated with the investment process.

6. List of plans / investment tasks

No. Name of intention / task

I ICT

1 The development of ICT systems in the area of energy market management 1.1 Development and implementation of IT tools supporting trade and technical balancing

2 The development of IT systems in the area of supervisory control 2.1 Modernization of dispatching systems

2.2 Implementation of EMS network applications in ODMs

3 Construction of an IT system for operating the mechanisms for the management of _{work of the power system} 4 Technological Upgrade of the DYSTER dispatcher support system

5 Integration of information systems in the area of operation with the AM system 6 Delivery and implementation of the Asset Management system in PSE SA and five area companies (AM System) to assist in managing the assets of PSE SA, 7 Purchase of software and licenses from software vendors

8 Purchase and implementation of enterprise management support systems (EOD, _{Workflow Analysis and decision-making, etc.)} 8.1 Purchase and implementation of the System of Electronic Document Circulation

No. Name of intention / task

9 Modernization of telecommunication facilities of PSE SA, as regards air-conditioning _{and 48 V DC power supply, along with the provision of remote monitoring} 10 Modernization of the transmission network equipment

11 Expansion of the fibre optic monitoring system

12 Delivery and implementation of the system of TSO telecommunications _{infrastructure passportisation} 13 Development of the information systems hardware platform of PSE SA, 13.1 The hardware platform of the information systems of PSE SA,

13.2 Expansion of the consolidated backup system

14 Construction of IT security systems in the power substations

15 Implementation of an ICT safety monitoring system of SIEM class in the PSE Capital _Group 16 Construction of tools to support the implementation of of PSE SA operational _processes, 16.1 Expansion of the Remedy Service System by adding ITIL processes

16.2 Centralisation of the Office Service System within the PSE Capital Group

17 Implementation of the corporate identification card and the electronic signature in _{the PSE Capital Group} 18 Construction and relocation of the Reserve Data Center (RCPD) to a new location

II Construction and expansion of electroenergetic substations and power lines KSP EXPANSION PROGRAM CONCERNING THE POLAND - LITHUANIA

CONNECTION

1 Construction of the 400 kV lineMiłosna-Siedlce Ujrzanów 2 Construction of the 400/110 kV substation Siedlce Ujrzanów

3 Expansion of the 400 kV switching station at the 400/110 kV substation Narew 4 Construction of the 400 kV line Narew-Łomża-Ostrołęka

5 Construction of the 400 kV substationŁomża

6 Expansion of the 220/110 kV substationstation together with the modernization of 220 kV switching substation and the Ostrołęka by adding a 400 kV switching construction of a new 110 kV substation - Stage I

7 Construction of the 400 kV lineEłk Bis-Granica RP (direction of Alytus) 8 Construction of the 400 kV lineEłk Bis-Łomża

9 Construction of the 400/110 kV substationEłk Bis - stage I i II 10 Construction of the 400 kV substationStanisławów

EXTENSION OF THE CENTRAL NODE

11 Expansion of the 400/220/110 kV substationkV line Kromolice-Pątnów Pątnów with the introduction of the 400 12 Construction of the 400 kV line Kromolice-Plewiska-Konin Pątnów along the route of the 220 kV line 13 Construction of the 400 kV linePątnów-Jasiniec

NETWORK OPERATION SAFETY IN THE WARSAW AGGLOMERATION 14 Expansion of the 400/110 kV substationMościska

15 Expansion of the 220 kV switching station at the 220/110 kV substation Piaseczno 16 Budowa stacji 220/110 kV Praga wraz z wprowadzeniem linii 220 kV Miłosna-Mory 17 Construction of the 400 kV line Kozienice-Ołtarzew

18 Construction of the 400 kV lineOstrołęka-Stanisławów

No. Name of intention / task construction of a new 110 kV substation - Stage II

20 Construction of the 400 kV line Kozienice-Siedlce Ujrzanów 21 Expansion of the 400/110 kV substation Siedlce Ujrzanów 22 Expansion of the 400/110 kV substationPłock

NETWORK OPERATION SAFETY

IN THE NORTH-CENTRAL PART OF THE COUNTRY

23 Expansion of the 220/110 kV substation Bydgoszcz Zachód by adding a 400 kV switching station 24 Expansion of the 220/110 kV substation station Piła Krzewina by adding a 400 kV switching 25 Construction of the 400 kV line Bydgoszcz Zachód-Piła Krzewina

26 Installation of an 400/110 kV 450 MVA autotransformer in the the 400/220/110 kV _{substation Dunowo} 27 Expansion of the 400/220/110 kV substationOlsztyn Mątki

NETWORK OPERATION SAFETY IN THE SZCZECIN AGGLOMERATION 28 Construction of the 220 kV line Glinki-Recław

29 Expansion of the 220/110 kV substation Glinki

30 Expansion of the 110 kV substation Recław by adding a 220 kV switching station 31 Launching the Morzyczyn-_{Sp. z o.o.} Recław 220 kV line redeemed from fromENEA Operator

NETWORK OPERATION SAFETY IN THE EASTERN PARTS OF THE COUNTRY

32 Construction of the 220 kV line Radkowice-Kielce Piaski along with the expansion of_{the Radkowice and Kielce Piaski substations} 32.1 Construction of the 220 kV line Radkowice-Kielce Piaski

32.2 Expansion of the 220/110 kV substation Radkowice 32.3 Expansion of the 220/110 kV substation Kielce Piaski

33 Expansion of the 220/110 kV substation Stalowa Wola by adding a 220 kV switching station 34 Construction of the 220 kV line Stalowa Wola - point of cutting into the line Chmielów-Abramowice

35 Expansion and modernization of the 400/110 kV substation Tarnów, along with the _{installation of reactive power compensation equipment} 36 Construction of the 400 kV line_{of the 220/110 kV substation Chelm and the 400/110 kV substation Lublin Systemowa}Chełm-Lublin Systemowa along with the expansion 36.1 Construction of the 400 kV lineChełm-Lublin Systemowa

36.2 Expansion of the 220/110 kV substationChełm

36.3 Expansion of the 400/110 kV substation Lublin Systemowa

37 Expansion and modernization of the 750/400/110 kV substation Rzeszow, along with _{the installation of reactive power compensation equipment} 38 Expansion of the 400 kV switching station at the 400/110 kV substation Narew along _{with the installation of reactive power compensation equipment} 39 Expansion and modernization of the 400/220/110 kV substation Kozienice as regards _{the 400 kV switching station}

NETWORK OPERATION SAFETY IN THE WESTERN PART OF THE COUNTRY 40

Linking the 400 kV and 220 kV power systems by constructing a 400 kV connection from the 400/110 kV substation Pasikurowice to the existing 220 kV line

Świebodzice-Klecina

No. Name of intention / task

40.2 Expansion of the 220/110 kV substationŚwiebodzice by adding a 400 kV switching station 41 Construction of the 400 kV lineMikułowa-Świebodzice

42

Construction of the 400 kV line from the 400/110 kV substation Czarna to the 220/110 kV substation Polkowice along with the expansion of the substation Polkowice by adding a 400 kV switching station and the expansion of the Czarna substation as regards the 400 kV switching station

42.1 Construction of the 400 kV line from the 400/110 kV substation Czarna to the 220/110 kV_{substation Polkowice} 42.2 Expansion of the 220/110 kV substation Polkowice by adding a 400 kV switching station 42.3 Expansion of the 400/110 kV substation Czarna as regards the 400 kV switching station

43 Expansion of the 400 kV switching station at the 400/110 kV substation Ostrów along with the installation of reactive power compensation equipment 44 Construction of the 400 kV lineMikułowa-Czarna

45 Construction of the 400 kV line Czarna-Pasikurowice NETWORK OPERATION

SAFETY IN THE SILESIAN AGLOMERATION

46 Construction of the 400/220 kV SUBSTATION Podborze with the launch of A 220 kV line: Kopanina-Liskovec, Bujaków-Liskovec, Bieruń-Komorowice, Czeczott-Moszczenica and the 400 kV line Nosovice-Wielopole

47 Construction of 2 x 400 + 220 kV lines Byczyna-Podborze

48 Construction of the 400 kV lineDobrzeń-nacięcie, line Pasikurowice-Wrocław 49 Expansion of the 400/110 kV substationDobrzeń

50 Expansion of the 220/110 kV substation Skawina by adding a 400 kV switching station i 110 kV along with the launch of 2 x 2 x 400 kV line Tarnów-Tucznawa, Rzeszów-Tucznawa

50.1 Expansion of the 220/110 kV substation Skawina by adding a 400 kV and 110 kV switching _station 50.2 Construction of the 400 kV line Skawina- cutting into the line Tarnów-Tucznawa, Rzeszów-_Tucznawa

CROSS-BORDER CONNECTION

AT THE SYNCHRONOUS CROSS SECTION POLAND - GERMANY 51 Installation of phase shifters on the 400 kV line Krajnik-Vierraden

52 Installation of phase shifters on the 400 kV lineMikułowa-Hagenwerder 53 Expansion and modernization of the 400/220 kV substation Krajnik 54 Expansion and modernization of the 400/220/110 kV substationMikułowa

RES CONNECTION

IN THE CENTRAL PART OF THE COUNTRY

55 Expansion of the substation Stanisławów for the connection of FW Korytnica CONNECTION AND OUTPUT OF POWER

FROM RES AND THE CONVENTIONAL SOURCES LOCATED IN THE NORTHERN PART OF THE COUNTRY

56 Expansion of the 400/110 kV substationSłupsk

57 Expansion of the 400/110 kV substation_{Kukowo-Dargoleza andFW Drzeżewo IV}Słupsk for the connection of wind farms: FW 58 Expansion of the 400/110 kV substation_{FW Choczewo, FW Osieki and FW Zwartowo}Żarnowiec for the connection of wind farms: 59 Expansion of the the 400 and 110 kV switching station at the 400/220/110 kV _{substation Dunowo}

60 Expansion of the 110 kV switching station at the 400/220/110 kV substation Olsztyn _{Mątki for the connection ofFW Worławki and Jesionowo} 61 Expansion of the 400/220/110 kV substation_{Olsztyn Mątki wind farm} Olsztyn Mątki for the connection of 62 Expansion of the 400/110 kV substation_Jasna Gdańsk Błonia for the connection of FW

No. Name of intention / task

63 Construction of the 400 kV lineconstruction of the 400/110 kV substation Gdańsk PrzyjaźńGdańsk Przyjaźń-Pelplin together with the and the introduction of a single 400 kV line Gdańsk Błonia-Żarnowiec

63.1 Construction of the 400 kV lineGdańsk Przyjaźń-Pelplin

63.2 Construction of the 400/110 kV substation_{single 400 kV line Gdańsk Błonia-Żarnowiec}Gdańsk Przyjaźń along with the launch of a 64 Expansion of the 400/220/110 kV substationGrudziądz Węgrowo

65 Construction of the 400 kV line Pelplin-construction of the 400 (220) / 110 kV substation Pelplin and installation of a 220/110 Grudziądz Węgrowo together with the kV transformer

65.1 Construction of the 400 kV line Pelplin-Grudziądz Węgrowo

65.2 Construction of the 400 (220) / 110 kV substation Pelplin with the installation of of a _{220/110 kV transformer} 66 Construction of the 400 kV line Jasiniec-Grudziądz Węgrowo

67 Construction of 400 kV switching station in the the 220/110 kV substation Jasiniec 68 Construction of the 400 kV lineGdańsk Przyjaźń-Żydowo Kierzkowo

69 Construction of the 400 kV line Dunowo-Żydowo Kierzkowo 70 Construction of the 400 kV linePiła Krzewina-Żydowo Kierzkowo 71 Construction of the 400 kV linePiła Krzewina-Plewiska

72 Expansion of the the 220 kV switching station in the 400/220 kV substation Krajnik for the connection of FW Banie 73 Construction of the 400 kV lineŻydowo Kierzkowo-Słupsk

74 Construction of the 400/110 kV substation_{a 220/110 kV transformer} Żydowo Kierzkowo with the installation of 75 Construction of the 400/110 kV substation Baczyna with the introduction of the 400 _{kV line Krajnik-Plewiska} 76 Construction of the 400 kV line Baczyna-Krajnik

RES CONNECTION

IN THE WESTERN PART OF THE COUNTRY

77 Expansion of the 110 kV switching station at the 220/110 kV substationKrzewina for the connection of wind farms: FW Krzewina and FW ChwiramPiła

78 Expansion of the 220 kV switching station at the 220/110 kV substation_{for the connection of FW Udanin II} Świebodzice 79 Expansion of the 220 kV switching station at the 220/110 kV substation_{for the connection of a 220/110 kV transformer and FW Paczków} Ząbkowice 80 Expansion of the 400 kV switching station at the 400/220/110 kV substation _{Mikułowa for the connection of FW Bogatynia}

81 Expansion of the 220 kV switching station at the 400/220/110 kV substation _{Mikułowa for the connection of wind farms:FW Mikułowa andFW Mikułowa 1} 82 Expansion of the 110 kV switching station at the 400/220/110 kV substation _{Mikułowa for the connection of FW Sulików}

83 Expansion of the 400 kV switching station at the 400/220 kV substation Krajnik for _{the connection of FW Krajnik} 84 Expansion of the 400 kV switching station at the 400/110 kV substation Ostrów for _{the connection of FW Ostrów} 85 Expansion of the 400 kV switching station at the 400/110 kV substation Kromolice _{for the connection of FW Wielkopolska}

RES CONNECTION

IN THE SOUTHERN PART OF THE COUNTRY

86 Expansion of the 220 kV switching station at the 220/110 kV substation Groszowice 87 Expansion of the 220/110 kV substation Blachownia along with the launch of the 220 kV line Groszowice-Kedzierzyn 88 Expansion of the 110 kV switching station Dobrzeńfor the connection ofFW Bąków

No. Name of intention / task II

CONNECTION OF BLOCK NO 11 OF THE POWER PLANT KOZIENICE TO THE 400/220/110 kV STATION KOZIENICE

89 Expansion of the 400/220/110 kV substation Kozienice in connection with the _{connection of block 11 of the Kozienice Power Plant} CONNECTION OF THE 1,000 MW BLOCK OF THE POWER PLANT

OSTROŁĘKA C TO THE 400/220/110 kV OSTROŁĘKA SUBSTATION

90

Expansion of the 220/110 kV substationOstrołęka by adding a 400 kV switching station along with the modernization of the 220 kV switching station and

construction of a new 110 kV switching station - the range associated with the connection

91 Construction of the 400 kV lineOstrołęka-Olsztyn Mątki

CONNECTION OF THE GAS-STEAM BLOCK

TO THE SUBSTATION WŁOCŁAWEK AZOTY

92 Expansion of the 220 kV switching station at the 220/110 kV substationAzoty Włocławek CONNECTION OF A BLOCK WITH AN OUTPUT OF 244 MW

TO THE SUBSTATION POMORZANY

93 Construction of the 220 kV line Pomorzany - cutting into the line Krajnik-_{Glinki/previous name: "Construction of the 220 kV line Krajnik-Pomorzany" /}

94 Expansion of the 110 kV substation Pomorzany by adding a 220 kV switching station CONNECTION OF A 425 MW

CC gas unit OF EC WROCLAW TO THE 400/110 kV SUBSTATION PASIKUROWICE 95 Expansion of the 400/110 kV substation Pasikurowice

CONNECTION OF A GENERATING BLOCK JAWORZNO II TO THE BYCZYNA SUBSTATION

96 Expansion and modernization of the Byczyna substation with the introduction of the 400 kV line Tucznawa-Tarnów (Skawina) CONNECTION OF A 110 kV

LINE Of ENERGA-OPERATOR SA

97 Expansion of the 110 kV switching station at the 400/220/110 kV substation _{for the connection of the 110 kV line ENERGA-OPERATOR S.A.} Gdańsk I OTHER UNBLOCKED

98 Implementation of technical protection systems in the substations

99 Construction of a warehouse building in the 400/220/110 kV substationGdańsk I 100 Purchase and installation of reactive power compensation equipment in the following stations:Narew, Olsztyn Mątki, Ostrów, Rzeszów, Siedlce Ujrzanów,

Tarnów

101 Budowa redundantnych linii_{transmisji do ODM Radom, KDM Konstancin-Jeziorna, RCPD}światłowodowych zapewniających drugą drogę

101.1 struction of redundant fibre optic lines providing another transmission path to ODM Radom 101.2 struction of redundant fibre optic lines providing another transmission path to KDM _{Konstancin-Jeziorna} 101.3 Construction of redundant fibre optic lines providing another transmission path to RCPD

III Modernization of the substations and power lines MODERNIZATION OF

THE CENTRAL NODE 1 Modernization of the 220 kV line Adamów-Konin path I 2 Modernization of the 220 kV line Adamów-Konin path II

No. Name of intention / task

3 Modernization of the 220/110 kV substation Konin_{the 110 kV switching station in the 220/110 kV substation Konin" /}/ previous name: "Modernization of 4 Modernization of the 220 kV line Rogowiec-Pabianice

5 Modernization of the 220 kV line Janów-Rogowiec, Rogowiec-Piotrków 6 Modernization of the 220 kV line Piotrków-Janów

7 Modernization of the 400/220 kV substation Rogowiec as regards the 400 kV _{switching station} 8 Modernization of the 400/220 kV substation Rogowiec as regards the 220 kV _{switching station} 9 Modernization of the 220 kV line Janów-Zgierz-Adamów

10 Modernization of the 220/110 kV substation Pabianice SAFETY NETWORK OPERATION IN THE WARSAW AGGLOMERATION

11 Modernizacja pól linii 220 kV w stacjach Kozienice, Mory, Piaseczno w celu dostosowania do nowych zdolności przesyłowych SAFETY NETWORK OPERATION

IN THE NORTH-CENTRAL PART OF THE COUNTRY 12 Modernization of the 220/110 kV substation Bydgoszcz Zachód

13 Modernization of the 400 kV line Grudziadz Węgrowo-Plock as regards OPGW NETWORK OPERATION SAFETY

IN THE SZCZECIN AGGLOMERATION 14 Modernization of the 220 kV line Morzyczyn-Police

BEZPIECZEŃSTWO PRACY SIECI WE WSCHODNIEJ CZĘŚCI KRAJU

15 Modernization of the 220/110 kV substation Abramowice 16 Modernization of the 400/110 kV substation Ostrowiec 17 Modernization of the 220/110 kV substationRożki

18 Modernization of the 400/220/110/15 kV substation Połaniec as regards the 110 kV _{and 15 kV switching station} 19 Modernization of the 220/110 kV substation Chmielów

20 Modernization of the 220/110 kV substation Mokre

21 Modernization of the 220 kV line Stalowa Wola-Chmielów in terms of OPGW 22 Modernization of the 220 kV linePołaniec-Klikowa in terms of OPGW 23 Modernization of the 220 kV line Kielce-Joachimów - stage II

NETWORK OPERATION SAFETY IN THE WESTERN PART OF THE COUNTRY 24 Modernization of the 220 kV lineMikułowa-Leśniów

25 Modernization of the 220 kV line Gorzów-Leśniów 26 Modernization of the 220/110 kV substationŻukowice

NETWORK OPERATION SAFETY IN THE POZNAN AGGLOMERATION

27 Modernization of the 220/110 kV substation Leszno Gronowo - stage II NETWORK OPERATION

SAFETY IN THE SILESIAN AGLOMERATION 28 Modernization of the 220/110 kV substation Halemba

29 Modernization of the 220/110 kV substation Kopanina

30 Replacement of OPGW on 220 kV lines Kopanina- Wielopole, Kopanina - Katowice _{and installation of OPGW on the 110 kV line Łaziska-Digging} 31 Modernization of the 220 kV line Byczyna-Jamki, Byczyna-Koksochemia

32 Modernization of the 400 kV line Tucznawa-Rogowiec, Joachimów-Rogowiec 3 33 Modernization of the 220 kV line Poreba- Czeczott and the section of the 220 kV line _{Poreba- Byczyna as regards OPGW}

No. Name of intention / task

34 Comprehensive Modernization of the 220 kV line within the PSE-East SA Company 34.1 Modernization of the 220 kV line Joachimów-Łośnice

34.2 Modernization of the 220 kV line Joachimów-Rogowiec 1, Joachimów-Rogowiec 2 34.3 Modernization of the 220 kV lineŁośnice-Koksochemia, Łośnice-Kielce, Łośnice-Siersza

35 Modernization of the primary circuit on the 220 kV Bujaków along with adjusting _{secondary circuits} 36 Modernization of primary circuits of the 220 kV switching station station Klikowa 37 Modernization of the 220 kV substation Koksochemia

38 Replacing 400 kV disconnectors of the 400/220/110 kV substation Joachimów along _{with adjusting secondary circuits and fault location system} 39 Implementation of power supply of own needs of in the 220/110 kV substation _{Katowice from compensatory windings of autotransformers} 40 Modernization of the 220/110 kV substation Komorowice

41 Modernization of the 400/110 kV substation Tucznawa

42 Implementation of dehydration of the posts of transformers installed in the 220/110 _{kV substation Halemba} 43 Preparation of infrastructure to found the 400/220 kV 500 MVA autotransformer in _{the substation Joachimów} 44 Modernization of the 220 kV line Blachownia-_{connection of FW Lubrza and FW Paczków} Łagisza in connection with the

OTHER UNBLOCKED 45 Modernization of the AC / DC static converter station Słupsk 46 Modernization of the population of transformers - stage III 47 Modernization of the population of transformers - stage V 48 Modernization of the population of transformers - stage VI 49 Modernization of the population of transformers - stage VII 50

Program of the elimination of hazards in the work of network transformers and their impact on the infrastructure of the substation through the preventive replacement of bushings - Stage I / previous name: "Programme of the exchange of bushings on the transformers"

51

Programme of the elimination of hazards in the work of network transformers and their impact on the infrastructure of the substation through the preventive

replacement of bushings - Stage II and III

52 Exchange Program of insulators on the LV lines and power substations 53 Modernization of the building of aggregates in the 400/220/110 kV substation _{Plewiska and replacement of generator sets} 54 Construction of noise barriers in the 220/110 kV substation Olsztyn I

55 Construction of noise barriers in the 220/110 kV substationChełm 56 Construction of noise barriers in the 220/110 kV substation Radkowice

57 Construction of the water supply connection and the sanitary installation in the _{400/220/110 kV substation Łagisza} 58 The modernization and adaptation of storage facilities in the 400/110 kV substation _Tucznawa 59 Installation of additional stationary sewage security devices

60 Modernization of Engineering Services Building (BUT) and Laboratory Building (BL) in Radom along with land development 61 Implementation of Maintenance Teams (SPM) in the Area Companies

62 Modernisation of existing and installation of new OPGW lightning conductors on _{selected 220 kV and 400 kV lines}

IV Buildings and structures

No. Name of intention / task

V Purchase of finished capital goods

VI Financing of works related to the preparation of plans _{and investment tasks} EXPANSION AND MODERNIZATION OF

THE CENTRAL NODE

1 Modernization of the 220 kV lines line Pątnówpower transmissions - Konin in order to adapt to increased 2 Expansion of the 220/110 kV lines substation Janów by adding a 400 kV switching station along with the launch of the Rogowiec-Plock line 3 Expansion of the 220/110 kV substation Adamów

NETWORK OPERATION SAFETY IN THE AGGLOMERATION OF WARSAW

4 Adaptation of the 220 kV line Oltarzew-Mory to larger power transmissions (elimination of overhang restrictions) 5 Modernization of the 400 kV line Płockincreased power transmissions -Miłosna- (Oltarzew) in order to adapt to 6 Construction of the 400/110 kV substation Wyszków along with the launch of the the 400 kV line Ostrołęka-Stanisławów

NETWORK OPERATION SAFETY IN THE NORTHERN PART THE COUNTRY

7 Modernization of the 2 x 400 kV line ŻarnowiecBłoniato adapt to the increased power transmissions-Gdańsk/Gdańsk Przyjaźń-Gdańsk NETWORK OPERATION SAFETY

IN THE NORTH- CENTRAL PART OF THE COUNTRY

8 Expansion and modernization of the Piła Krzewinaintroduction of the 400 kV line, installing AT 400/110 kV and a chokesubstation in relation to the 9 Construction of the 400/110 kV substation Elblag with the introduction of the 400 kV line Gdańsk Błonia Olsztyn Mątki 10

Switching of the 220 kV linePiła Krzewina - Bydgoszcz Zachód-Jasiniec to the 400 kV voltage and the adaptation of the Piła Krzewina substation and Bydgoszcz Zachód substation to operation at the 400 kV voltage

11 Construction of the 400 kV linePłock-Olsztyn Mątki

NETWORK OPERATION SAFETY

IN THE NORTH-WEST PART OF THE COUNTRY 12 Modernization of the 400 kV line Morzyczyn-Dunowo-Slupsk-Żarnowiec

NETWORK OPERATION SAFETY IN THE AGGLOMERATION OF SZCZECIN 13 Modernization of the 220 kV line Krajnik-Morzyczyn

14 Modernization of 400 kV line Krajnik-Morzyczyn to accommodate the increased _{power transmissions} 15 Reconstruction of the 220 kV line Krajnik-Glinki

16 Modernization of 220 kV lines Morzyczyn-_{z o.o.} Recław redeemed from ENEA Operator Sp. NETWORK OPERATION SAFETY

IN THE EASTERN PART OF THE COUNTRY

17 The introduction of the 400 kV line Fever (Stanislaviv)-Narew to the 400/110 kV Siedlce Ujrzanów 18 Modernization of the 400/220/110 kV substation Kozienice as regards 220 kV and 110 kV switching station

No. Name of intention / task NETWORK OPERATION SAFETY IN THE WESTERN PART OF THE COUNTRY 19 Construction of the 400 kV line Pasikurowice-Dobrzeń-Joachimów

20 Modernization of the 220 kV line_{power transmissions} Mikułowa-Polkowice to accommodate the increased 21 Modernization of the 220/110 kV substationLeśniów - stage II

NETWORK OPERATION SAFETY IN THE AGGLOMERATION OF POZNAN 22 Suspension of the second 400 kV line Ostrow-Kromolice 23 Modernization of the 220/110 kV substation Czerwonak

24 Launching the second 400 kV line Kromolice-Plewiska along with the creation of a _{220 kV star Plewiska-Konin with a tap to Poznan Południe} NETWORK OPERATION

SAFETY IN THE SILESIAN AGLOMERATION 25 Modernization of the 220 kV line Joachimów-Łagisza/Wrzosowa 26 Modernization of the 220 kV line Byczyna-Siersza

27 Modernization of the 220/110 kV substationKędzierzyn

28 Expansion of the 220/110 kV substation_{stationand the introduction of the 400 kV line Trębaczew}Aniołów by adding a 400 kV switching _-Joachimów CROSS-BORDER CONNECTION AT THE SYNCHRONOUS POLAND - GERMANY

CROSS SECTION

29 Construction of a double-track 400 kV line Świebodzice Ząbkowice-Dobrzeń 30

Construction of a third cross-border 400 kV connection between the power systems of Poland and Germany, together with the necessary expansion of the western part of the NPS/ previous name "Construction of the 400 kV line Plewiska-RP / Germany Border, the direction of Eisenhuettenstadt"/

31 Construction of the 400 kV line Baczyna-Polkowice

CROSS-BORDER CONNECTION

AT THE ASYNCHRONOUS POLAND - UKRAINE CROSS SECTION 32 Launching the 750 kV line Rzeszów-Chmielnicka

CONNECTION AND OUTPUT OF THE POWER

FROM RES AND THE CONVENTIONAL SOURCES LOCATED IN THE NORTH-WEST PART OF THE COUNTRY

33 Expansion of the 400/220/110 kV substation Plewiska

34 Expansion of the 400/110 kV substation_{block EC Wybrzeże and block G-P EC Gdańsk}Gdańsk Błonia for the connection of the 35 Expansion and modernization of the 400/110 kV substation Gdańsk Błonia for the _{connection of FW Pelplin} 36 Expansion of the 400/110 kV substation_{Środkowy III andFW Wierzbięcin} Słupsk for the connection ofMFW Bałtyk 37 Expansion of the 400/110 kV substation_Baltica-3 Żarnowiec for the connection of MFW 38 Modernization the 400 kV line Grudziadz Węgrowo_{increased power transmissions} -Plock in order to adapt to the 39 Modernization of the 220 kV line Grudziadz Węgrowo_{increased power transmissions} -Toruń Elanato adapt to the 40 Modernization the 400 kV line Gdańsk Błonia Olsztyn Mątki to adapt to the increased _{power transmissions} 41 Expansion of the 400/220 kV substation Krajnik for the connection of the block EI. _{Dolna Odra}

RES CONNECTION

IN THE EASTERN PART THE COUNTRY

No. Name of intention / task RES CONNECTION

IN THE WESTERN PART OF THE COUNTRY

43 Expansion of the 400/110 kV substation Czarna for the connection of FW Legnica POWER OUTPUT FROM RES AND THE CONVENTIONAL SOURCES LOCATED IN

SOUTHERN PART OF THE COUNTRY

44 Expansion of the 400/220/110 kV substation Wielopole for the connection of FW Silesia 45

Expansion of the 220/110 kV substation Blachownia by adding a 400 kV switching station together with the construction of the 400 kV line Blachownia- cutting into the line Joachimów-Wielopole and Blachownia- cutting into the lineDobrzeń-Wielopole for the connection of 2x600 MW blocks El. Blachownia

CONNECTING THE GAS-STEAM GDF SUEZ BLOCK TO THE SUBSTATION

WŁOCŁAWEK AZOTY

46 Expansion of the 220/110 kV substationswitching station Włocławek Azoty by adding a 400 kV 47 Construction of the 400 kV lineJasiniec /previous name:„Construction of the 400 kV lineWłocławek Azoty do nacięcia linii 400 kV PątnówPątnów-Włocławek Azoty”/

-CONNECTING THE BLOCK EL. LECZNA

TO THE 400/110 kV SUBSTATION LUBLIN SYSTEMOWA 48 Expansion of the 400/110 kV substation Lublin Systemowa

CONNECTING A GAS-STEAM BLOCK

TO THE PUŁAWY SUBSTATION

49 Construction of the 400 kV lineKozienice Lublin Systemowa from the substation Puławy to the cut in the line 50 Construction of the 400 kV lineKozienice-Ostrowiec from the substation Puławy to the cut in the line 51 Construction of the 400/220 kV substation Puławy

CONNECTING A CONVENTIONAL BLOCK TO THE 220/110 kV SUBSTATION GORZÓW

52 Expansion of the 220/110 kV substation Gorzów for the connection of the CC gas _{unit Gorzów} CONNECTING THE BLOCK No. 11 EL. TURÓW

WITH THE CAPACITY OF 480 MW 53 Expansion of the 400/220/110 kV substationMikułowa

CONNECTION OF THE 110 kV LINE OF PGE Dystrybucja S.A. 54 Development of the 110 kV switching station in the 400/110 kV Krosno Isrzynia_{station for the connection of the 110 kV line PGE Dystrybucja S.A.}

OTHER UNBLOCKED

55 Purchase and installation of equipment for the reactive power compensation - Stage II 56 Replacement of breakers at substations to increase breaking current

57 Program for the construction of systems for the regulation of the voltage level in the transmission network - the construction of reactive power compensation systems in the NN substations by installing the SVC compensators (Static Var Compensators) 58 Adapting the selected stations to SSiN

59 Installing the Anti-swinging Automatics (APK) in the 400/220 kV Rogowiec station 60 Installing the Anti-swinging and Unburdening Automatics (APK-O) in the 400/220 kV _{Kozienice station} 61 Transformer Replacement Program

No. Name of intention / task

63 Purchase of a central monitoring system for the new self-transformers, phase _{shifters and glands} 64 The programme of adaptation of transformers for digital information transmission and installation of the monitoring module with the implementation of the necessary

modernization works (valves, cooling)

65 The program of thermo-modernisation of station buildings as a result of audits for _{selected buildings in substations}

7. Diagrams of networks

Figure 1. Diagram of the transmission network – as of 01.01.20131

1_{Legend: 400 kV tymczasowo pracująca na napięciu 220 kV - 400 kV temporarily working at a voltage of 220}

kV; linia 220 kV czasowo pracująca na napięciu 110kV - 220 kV line temporarily working at a voltage of 110kV; kabel stałoprądowy 450 kV - 450 kV DC cable; inwestycje w realizacji – ongoing investments

Figure 2. Diagram of the transmission network with the highlighted investments from the Group II - Construction and expansion of the station and the line - planned for implementation

in the years 2014-20182

2_{Legend: 400 kV tymczasowo pracująca na napięciu 220 kV - 400 kV temporarily working at a voltage of 220}

kV; linia 220 kV czasowo pracująca na napięciu 110kV - 220 kV line temporarily working at a voltage of 110kV; kabel stałoprądowy 450 kV 450 kV DC cable; inwestycje planowane do realizacji w latach 20142018 -investments planned for implementation in the years 2014-2018

Figure 3. Diagram of the transmission network with the highlighted investments from the Group III - Modernization of stations and power lines - planned for implementation in the years

2014-20183

3_{Legend: 400 kV tymczasowo pracująca na napięciu 220 kV - 400 kV temporarily working at a voltage of 220}

kV; linia 220 kV czasowo pracująca na napięciu 110kV - 220 kV line temporarily working at a voltage of 110kV; kabel stałoprądowy 450 kV 450 kV DC cable; inwestycje planowane do realizacji w latach 20142018 -investments planned for implementation in the years 2014-2018

Figure 4. Transformers planned for installation in the years 2014-2018 on the background of the diagram of the transmission network representing the investments of the Group II planned

for the years 2014-20184

4_{Legend: 400 kV tymczasowo pracująca na napięciu 220 kV - 400 kV temporarily working at a voltage of 220}

kV; kabel stałoprądowy 450 kV - 450 kV DC cable; transformatory planowane do zamontowania w latach 2014-2018 - transformers planned for installation in the years 2014-2014-2018

Figure 5. Diagram of the transmission network – the expected state at the end of 2018 (with the highlighted investments in progress)5

5_{Legend: 400 kV tymczasowo pracująca na napięciu 220 kV - 400 kV temporarily working at a voltage of 220}

kV; kabel stałoprądowy 450 kV -450 kV DC cable; inwestycje planowane do realizacji i zakończenia (pod względem technicznym) w latach 2014-2018 - investments planned for implementation and completion (in technical terms) over the period 2014-2018; inwestycje planowane do zakończenia po 2018 - investments planned for completion after the 2018;