KOTRA자료 14-016

러시아 에너지시스템 시장 현황 Russian Energy Systems Market Research 목차

서 론 ······································································································································································· 1 본 보고서에서 사용된 용어의 정의 ················································································································ 1 본 보고서에서 사용된 약어 ······························································································································ 2 방법 및 정보의 출처 ········································································································································· 3

제1부 러시아 에너지 시스템 시장 ················································································································ 4 1. 통합에너지시스템(Unified Energy System: UES) ················································································· 4 가. 구 조 ······················································································································································ 4 나. 전력량 ···················································································································································· 5 다. 전력 소비 ··············································································································································· 6 라. 전력 균형 ··············································································································································· 7 2. 주요 시장 참여자들 ····································································································································· 8 3. 국가 정책 및 규제 ····································································································································· 16 4. 2012년 러시아 시장의 규모와 구조 ······································································································ 17 5. 산업 발전의 전망 및 예상(계획된 프로젝트) ························································································ 18 가. 2013~2019년 기간의 러시아 UES 개발을 위한 체계 및 프로그램 ········································ 18 나. 2030년까지 전력할당을 위한 일반적 체계 ··················································································· 19

제2부 러시아 파워그리드(Power Grid) 시장 ························································································ 21 1. 러시아에서의 파워그리드 : 일반 정보(구조, 길이 등) ········································································ 21 가. 백본 그리드 ········································································································································ 21 나. 배전망 ·················································································································································· 22 2. 주요 시장참여자 ········································································································································· 23 가. 송전설비의 관리 ································································································································· 23 나. 송전설비의 건설 및 보수 ·················································································································· 25 3. 2012년 파워 그리드 시장 규모 ·············································································································· 25 가. 백본 그리드 ········································································································································ 25 나. 배전망 ·················································································································································· 26 4. 산업 발전의 전망과 예상(계획된 프로젝트) ·························································································· 28 가. 백본 그리드 ········································································································································ 28 나. 분배 그리드 ········································································································································ 32 5. 시장 진입의 전망 및 기회 ······················································································································· 33 제3부 러시아 스마트그리드 시장 ················································································································ 34

1. 스마트그리드 : 일반 정보 ························································································································ 34 가. 이점 및 개념모델 ······························································································································· 34 나. 에너지시스템의 구조적 측면에서 스마트그리드의 요소 ······························································· 37 다. 제조그룹의 관점에서 본 스마트그리드 요소들 ·············································································· 38 라. 러시아의 스마트그리드 ······················································································································ 39 2. 에너지 효율 분야의 프로젝트 ·················································································································· 40 가. ‘계량, 절약 및 지급(Count, Save and Pay)’ 프로젝트 ······························································ 40 나. ‘뉴라이트(New light)’ 프로젝트 ······································································································40 다. ‘에너지 효율 블록(Energy efficient block)’ 프로젝트 ································································ 41 라. ‘에너지 효율 사회적 부문’ 프로젝트 ······························································································· 41 마. 지역, 도시 및 민간 프로젝트 ··········································································································· 42 바. FGC UES 및 Russian Grids(IDGC 지주회사)의 프로그램 ························································ 43 3. 러시아 스마트그리드의 잠재력 ················································································································ 47 가. 백본 및 배전 전력망 단계 ················································································································ 47 나. 최종 소비자 단계 ······························································································································· 47 4. 잠재적 시장 참여자들 ······························································································································· 49 5. 스마트그리드 시장 발전 전망 ·················································································································· 50 6. 시장 진입의 전망과 기회 ························································································································· 50 가. 백본 및 배전 전력망 단계 ················································································································ 50 나. 최종 사용자 단계 ······························································································································· 52

제4부 전기에너지 시스템 분야에서의 입찰 ····························································································· 53

요 약 ···································································································································································· 54 1. 러시아 에너지 시스템 시장 ······················································································································ 54 2. 러시아 전력망 시장 ··································································································································· 55 3. 러시아 스마트 그리드 시장 ······················································································································ 57

[부록 1] ······························································································································································· 60 [부록 2] ···························································································································································· 291 [부록 3] ···························································································································································· 294 [부록 4] ···························································································································································· 324 표 목차

<표 1> 러시아 통합 에너지시스템의 통합전력시스템 구조 ········································································ 4

<표 2> 2011-2012년 말 전력 발전소 용량(산업용 발전소 포함), MW ················································ 5

<표 3> 2013.01.01. 현재 전력 발전소 용량 구조, MW ······································································· 6

<표 4> 2011-2012년 실제 전력 소비 규모 ································································································ 6

<표 5> 2013년 1월-11월 실제 전력 소비 규모 ························································································· 7

<표 6> 2011-2012년 전력 잔여량 ············································································································· 7

<표 7> 2013년 1-11월 전력 잔여량, mln kWh ····················································································· 8

<표 8> 러시아 에너지 시스템 주요 시장 참여자 ······················································································ 9

<표 9> 2012년 주요 러시아 에너지 시스템 시장 참여자의 자본투자 현황 ········································ 17

<표 10> 2012년 주요 러시아 에너지 시스템 시장 참여자의 자본 투자 ··········································· 18

<표 11> 2011-2012 러시아 UNEG에 포함된 PTL 길이와 SS 개수 ···················································· 21

<표 12> 2010-2012년 FGC의 주요 기능 및 재정(IFRS) 상황 ····························································· 23

<표 13> 2012년 배전업 참여 자회사의 주요 경제적․재정적 지표 ························································ 24

<표 14> 기간망 회선 및 송전설비 건설 및 보수 서비스 관련 주요 회사 ··········································· 25

<표 15> 2012년 IDGC홀딩스 SDCs의 통합 투자 프로그램 주요 지표 ··············································· 27

<표 16> 2014-2019년 러시아의 220kV 및 220kV 이상의 전력망 개발 데이터 요약 ················· 30

<표 17> UPS에 의한 220kV 미만 전력망 개발에 대한 데이터 요약 ················································· 31

<표 18> 2012-2017년 Russian Grids의 통합 투자프로그램 핵심 수치 ············································ 32

<표 19> 에너지 효율 분야에서 연방정부 프로젝트의 목표와 목적 ······················································· 40

<표 20> JSC ≪FGC UES≫의 혁신 개발 프로그램의 예산, bln RUB ·············································· 44

<표 21> FGC UES 및 Russian Grids의 혁신 개발 프로그램 투자 총액(2013-2016) ···················· 47 그림 목차

<그림 1> 2013-2019년 전력 소비의 예측, bln kWh ············································································ 18

<그림 2> 러시아 UES에 따른 발전회사들에 의한 발전용량의 신규 시운전 구조 ······························· 19

<그림 3> 2030년까지의 전력 소비 예측, bln kWh ··············································································· 19

<그림 4> 원자력 부문의 시운전구조와 발전량 프로그램, GW ······························································ 20

<그림 5> 수력 부문의 시운전구조와 발전량 프로그램, GW ·································································· 20

<그림 6> 열 발전부문의 시운전구조와 발전량 프로그램, GW ······························································ 20

<그림 7> 2012년 전압별 PTL 길이(km) ··································································································· 21

<그림 8> 2012년 전압별 SS용량(MVA) ··································································································· 22

<그림 9> 2012년 220kV 및 그 이상 UNEG 그리드의 지역적 분배(ths, km) ································· 22

<그림 10> 2012년 FGC UES의 자본투자 주요 분야 ············································································· 26

<그림 11> 연방 전력망 회사의 2013-2017 투자 프로그램 구조 ························································· 28

<그림 12> 연방 전력망 회사의 2013-2017 투자 규모 및 우선도(bln RUB) ·································· 28

<그림 13> 2013-2017 전력망 시설의 가동량 ························································································· 29

<그림 14> 2015-2030 전력망 시설의 가동량 ························································································· 31

<그림 15> 2030년까지 220kV 및 220kV를 초과하는 UNEG망의 지역적 분배(ths km) ·············· 32

<그림 16> 스마트그리드 개념 모델 – 최고 수준 ······················································································ 35

<그림 17> 스마트그리드 시장의 경계 ········································································································· 36

<그림 18> 능동-적응형 전력망에 의한 지능형 에너지시스템 구조 ························································ 39

<그림 19> FGC UES 설비를 위해 구매된 주요 전기장비의 국내 및 수입 제품 비율 ······················ 51

<그림 20> FGC UES 설비를 위해 구매된 2차 전기장비의 국내 및 수입 제품 비율 ························ 52 서 론

서 론

본 보고서의 연구 주제는 러시아의 전력시스템으로 송전에 중점을 두고 있다 (파워 그리드 및 스마트 그리드)

본 보고서에서 사용된 용어의 정의

전력망(Power Grid) – 변전소, 스위치 보드 및 송전선로의 복합체로서 전기를 공급하고 배분하기 위해 사용된다. 전력망은 두 종류의 송전설비로 구성된다.

∙ 변전소(SS) – 전기시설로서 수전(受電) ․ 변환 및 배전(配電)를 위해 사용되며, 변환기, 송전선로를 위 한 유도 구조, 스위치야드(switchyard), 전력시스템, 보호 및 자동화 시스템, 접지시스템 및 보조시스템 으로 구성된다. ∙ 송전선로(power transmission line: PTL) – 전력장비시스템으로서 전류를 통해 전력을 송전하는데 사 용된다. 가공 송전선로(overhead transmission line: OL)와 케이블 전력선로(cable power line: CL)가 있다.

일반적으로, 전압이 220 kV및 이를 초과하는 수준의 송전설비는 백본 전력망으로 분류되며, 150kV 및 그 미만의 설비와 220kV 전력망의 일부이지만 백본이 아닌 설비는 배전망으로 분류된다. 스마트그리드는 소프트-하드웨어(SH)1의 집합으로서, 송전의 효율 개선을 촉진한다. 본 문서에서의 맥 락에서, 효율이란 다음을 의미한다.

∙ 에너지 시스템 내에서 전기의 흐름과 정보를 생성하고 운영하는 기능들을 분산화한다. ∙ 송전 시스템을 구성하는데 적은 비용이 소요된다. ∙ 운영상의 문제점들을 해결하기 쉽다. ∙ 전기와 정보를 양방향으로 전송할 수 있는 능력을 가지며, 이는 분산 전력 및 재생 가능 에너지원 (renewable energy sources: RES)의 사용에 있어서 필수적이다.

1 이후로 SH는 장비, 컴퓨터 시스템, 다양한 수준의 컴퓨터 소프트웨어, 또는 이들을 결합의 형태를 가지는 지능형 에너지 시스템의 요소 로서 이해되어야 한다.

한국전기산업연구원 1 러시아 에너지시스템 시장 현황

스마트 그리드에 기반한 전력시스템은 다음 2개의 하부 시스템을 결합하여 구성된다.

∙ 전력 송전 하부 시스템 ∙ 정보 교환을 위한 하부 시스템

본 보고서에서 사용된 약어

∙ AAG – 능동-적응형 그리드(Active‐Adaptive Grid) ∙ ABCS – 자동화 빌딩 제어 시스템(automated building control system) ∙ AC – 교류 전류(alternate current); ∙ ACS – 자동 제어 시스템(Automatic Control System) ∙ AIMS EPFA – 전력 재정 회계를 위한 자동화 정보 및 측정 시스템(automated information and measuring system for power fiscal accounting); ∙ ARS – 적응형 조절 시스템(adaptive regulating system) ∙ ASC – 비동기 정전 보상기(asynchronized static compensator) ∙ CHPP – 열 병합 발전소(Combined Heat and Power Plant) ∙ CL – 케이블 전력 선로(cable power line) ∙ CPP – 응축 발전소(Condensation Power Plant) ∙ CSR – 제어되는 분류기 반응기(controlled shunt reactor) ∙ CSRT – 싸이리스터 밸브를 장착한 제어되는 분류기 반응기(controlled shunt reactor with thyristor valve); ∙ DP – 분배 점(distributing point) ∙ DC – 직류(direct current) ∙ ECA – 응급 제어 자동화 장치(Emergency Control Automatics) ∙ EPS – 발전소(Electric Power Station) ∙ FTP – 연방 목표 프로그램(Federal Target Program) ∙ HPP – 수력 발전소(Hydro Power Plant) ∙ HTS – 고온 초전도체(high‐temperature superconducting) ∙ ICS – 산업 제어 시스템(industrial control system) ∙ IT – 정보 기술 ∙ MCIA – 다중 챔버 절연기 차단기(multi‐chamber insulator arrester) ∙ MPG – 주 파워 그리드(Main Power Grid) ∙ NPP – 핵 발전소(Nuclear Power Plant) ∙ OL – 가공 송전선로(overhead transmission lines) ∙ PLT – 송전선로(power transmission line) ∙ PSPP – 펌프 저장 발전소(Pump‐storage Power Plant)

2 Russian Energy Systems Market Research 서 론

∙ RES – 재생에너지원(Renewable Energy Source) ∙ RPA – 릴레이 보호 및 자동화(relay protection and automation) ∙ SADC – 자동 직류 시스템(system of automatic direct current) ∙ SCTI – 정보 수집 및 전송 시스템(system of collection and transmission of information) ∙ SDCs – 자회사 및 종속 회사(Subsidiaries and dependent companies) ∙ SDPP – 국가 지역 발전소(State District Power Plant) ∙ SH – 소프트-하드웨어(Soft Hardware); ∙ SS – 변전소(electric power substation) ∙ SWYD – 스위치야드(switchyard) ∙ TFOE – 연료 오일 상당의 톤(tonns of fuel oil equivalent) ∙ TM – 통신역학(telemechanics) ∙ TPP – 열 발전소(Thermal power plant); ∙ TS – 변환 변전소(transformer substation) ∙ UES – 통합에너지시스템(Unified Energy System) ∙ UNPG – 통합국가전력망(Unified National Power Grid) ∙ UPS – 통합전력시스템(Unified Power System); ∙ WECM – 도매 전기 및 용량 시장(Wholesale Electricity and Capacity Market)

방법 및 정보의 출처

1. 이차 정보의 수집 및 분석 이차 정보의 소스들 : 대중 미디어, 전문 출판물, 비즈니스 출판물, 뉴스, 전문 웹 포털, 기업 정보, 시장 참여자들의 웹 사이트, 전문 데이터베이스(연방 주 통계 서비스, 연방 조세 서비스 등) 등

2. 전문가 의견 조사, 커버스토리를 사용한 인터뷰.

3. 러시아의 에너지 부문 연구에서 리서치 테크아트의 경험 및 최선 관행.

한국전기산업연구원 3 러시아 에너지시스템 시장 현황

제1부 러시아 에너지 시스템 시장

1. 통합에너지시스템(Unified Energy System: UES)

가. 구 조

1) 통합에너지시스템(Unified Energy System: UES)

러시아의 UES는 전력의 생산 및 기타 전력설비의 복합체로서 중앙의 관리 하에 전력 생산과 공급을 위한 단일과정으로 연계되어 있다. 러시아의 UES 관련 생산설비는 5MW 이상의 용량을 가지는 약 700개 의 발전소와 110~1150kV의 10,700개가 넘는 송전선로를 포함하고 있으며, 69개의 전력시스템으로 구성 되어 있는데, 이들은 7개의 통합전력시스템(Unified Power System: UPS)에서 병렬로 작동하는 7개의 작업 설비의 일부로서 동작한다.

2) 통합 전력 시스템(Unified Power System: UPS)

러시아의 UPS는 일반적인 운영 ․ 관리의 동작 기능을 가지는 모드로서 통합된 다수 전력시스템의 복합 체에 해당하는데, 중부 UPS, 북서부 UPS, 남부 UPS, 볼가 중부 UPS, 우랄 지역 UPS, 시베리아 지역 UPS, 동부 UPS 등 7개의 UPS가 지정되어 있으며, 각 UPS의 구조는 다음의 <표 1>과 같다.

<표 1> 러시아 통합 에너지시스템의 통합전력시스템 구조

Power satations SS PTL UPS Number MW* Number kV Number kV km 중부 UPS 142 51,290 2223 110-750 2639 110-750 86,483 볼가 중부 UPS 58 25,940 891 110-500 1103 110-500 50,839 우랄지역 UPS 151 46,239 1166 110-500 1919 110-1150 100,000 북서부 UPS 130 23,390 1074 110-750 1402 110-750 42,872 남부 UPS 116 18,605 1120 110-500 1448 110-800 52,167 시베리아 지역 UPS 101 48,532 n/a n/a n/a 110-1150 93,688 동부 UPS 20 9,191 297 110-500 384 110-500 24,551

출처 : JSC ≪SO UES≫ * 2013.01.01. 현재

4 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

각각의 UPS는 다음과 같은 운영 영역을 포함하고 있다.

∙ ≪통합 전력 시스템의 시스템 운영자≫ (JSC ≪SO UPS≫)2의 통합 처리 운영 부문 ∙ JSC ≪통합 에너지 시스템의 연방 그리드 회사≫ (JSC ≪FGC UES≫) 부문으로서, ≪백본 전기 그리드≫(MES)로 명명됨. 시베리아 지역 UPS는 다음의 두 ≪FGC UES≫ 부문을 포함한다: 시베리 아 MES 및 서부 시베리아 MES.

러시아 UES의 주요 부분은 통합국립전력망(Unified National Electric Grid(UNEG of Russia))으로 백 본(220kV 이상) 송전설비를 포함하고 있으며, UNEG의 운영은 ≪FGC UES≫가 그 지사(MES)를 통해 수행한다.

나. 전력량

2013년 1월 1일 현재 발전소의 총용량은 223,070.8MW이며, 신규 발전설비 및 발전설비 현대화를 통해 증가된 발전용량은 6,460.5MW 규모이다.

∙ 신규 발전설비 : 6,1434.3MW ∙ 현존 발전 설비의 현대화 : 339.1MW

한편, 1,911.4MW 용량의 발전설비는 운영이 정지된 상태이다.

<표 2> 2011-2012년 말 전력 발전소 용량(산업용 발전소 포함), MW

2012.01.01. remaking 2013.01.01. UPS 투입 산출 다른 변화 현재 ↑ ↓ 현재 중부 UPS 50,322.90 1,405.00 481.5 49 5.3 - 51,290.10 볼가 중부 UPS 25,817.70 227.4 199.8 35 15 86 25,951.30 우랄지역 UPS 45,720.94 698.59 704 78 4.5 450.95 46,239.98 북서부 UPS 22,466.67 1,199.82 190.57 45.59 76 -55.6 23,389.91 남부 UPS 17,773.03 801.3 64 96.5 1.2 0.26 18,605.89

시베리아 지역 46,924.96 1,802.20 253.5 35 - 24 48,532.60 UPS

동부 UPS 9,209.59 - 18 - - -130.6 9,060.99 합 계 218,235.79 6,134.31 1,911.37 339.09 102 375.01 223,070.83

출처 : JSC ≪SO UES≫ 주) 전체 발전소 용량에서 TTP의 비율은 68.1%, HPP가 20.6%, NPP가 11.3%에 해당함

2 회사의 공식 이름. 직접적 번역 — 통합 전력 시스템의 시스템 운영자.

한국전기산업연구원 5 러시아 에너지시스템 시장 현황

<표 3> 2013.01.01. 현재 전력 발전소 용량 구조, MW

TPP NPP HPP UPS Total, MW MW % MW % MW % 중부 UPS 51,290.10 36,617.53 71.4 12,834.00 25.00 1,838.57 3.6 볼가 중부 UPS 25,817.70 15,083.30 58.1 4,072.00 15.70 6,796.00 26.2 우랄지역 UPS 46,239.98 43,797.34 94.70 600.00 1.3 1,842.64 4.0 북서부 UPS 23,389.91 14,681.87 62.8 5,760.00 24.6 2,948.04 12.6 남부 UPS 18,605.89 10,995.67 59.1 2,000.00 10.7 5,610.22 30.2

시베리아 지역 48,532.66 24,931.26 51.4 - - 23,601.40 48.6 UPS

동부 UPS 9,060.99 5,720.99 63.1 - - 3,340.00 36.9 러시아 통합 223,070.83 151,827.96 68.1 25,266.00 11.3 45,976.87 20.60 에너지 시스템

출처 : JSC ≪SO UES≫

2013년 1월 기준, 발전용량은 225,568.85MW이며, 이는 TPP 153,675.91MW(68.1%), HPP 46,626.94MW (20.7%) 및 NPP 25,266.0MW(11.2%)를 포함하고 있다.

다. 전력 소비

2012년 러시아 UES에서의 전력소비는 1조 164억 9,790만kWh 규모이며, 이는 2011년에 비해 1.6% 높 아진 수치이다. 2011~2012년도 UPS에 의한 실제 전력소비 규모는 다음의 <표 4>와 같다.

<표 4> 2011-2012년 실제 전력 소비 규모

(단위 : mln, kWh) 전력 소비 UPS 2011 2012 변화(+, －) 2011년 대비(%) 중부 UPS 223,676.60 229,415.90 5,739.30 2.6 볼가 중부 UPS 108,005.00 108,503.80 498.8 0.5 우랄지역 UPS 254,597.50 257,001.20 2,403.70 0.90 북서부 UPS 92,554.10 93,209.60 655.5 0.7 남부 UPS 85,748.60 86,509.60 761.00 0.9 시베리아 지역 UPS 204,966.30 210,184.10 5,217.80 2.5 동부 UPS 30,521.40 31,673.70 1,152.30 3.80 러시아 통합 에너지 시스템 1,000,069.50 1,016,497.90 16,428.40 1.6

출처 : JSC ≪SO UES≫

2013년 기준 러시아의 UES에 따른 실제 전력소비는 8252억7880만 kWh에 해당하며, 이는 2012년 1월 에서 11월까지의 소비에 비해 0.3% 증가한 것이다(표 5 참조).

6 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

<표 5> 2013년 1월-11월 실제 전력 소비 규모

(단위 : mln, kWh) 전력 소비 UPS 2013년 1월-11월 2012년 1월-11월 대비(%) 중부 UPS 187,762.80 101.30 볼가 중부 UPS 89,036.20 101.10 우랄지역 UPS 211,436.60 101.00 북서부 UPS 73,455.70 98.10 남부 UPS 69,627.50 98.90 시베리아 지역 UPS 168,563.00 99.20 동부 UPS 25,397.00 100.6 러시아 통합 에너지 시스템 825,278.80 100.30

출처 : JSC ≪SO UES≫

라. 전력 균형

2011~2012년도의 러시아 UES 및 UPS에 의한 전력소비 잔여량은 <표 6>과 같다.

<표 6> 2011-2012년 전력 잔여량

2012 지표 2011, mln kWh mln kWh 2012/2011, % 러시아 통합 에너지 시스템 전력 출력, 전체 1,019,375.30 1,032,270.90 101.30 TPP 포함 642,110.50 647,732.90 100.9 HPP 포함 155,478.80 155,359.60 99.9 NPP 포함 172,528.20 177,122.70 102.70 산업용 전력 상태 49,257.80 52,055.70 105.7 전력 소비 49,257.80 52,055.70 105.7 잔여량 -19,305.80 -15,773.00 81.7 중부 UPS 전력 출력, 전체 239,280.80 243,027.40 101.6 TPP 포함 145,323.50 137,858.80 94.9 HPP 포함 3,480.20 3,336.60 95.9 NPP 포함 81,394.90 91,124.40 112 산업용 전력 상태 9,082.20 10,707.60 117.90 전력 소비 223,676.60 229,415.90 102.6 잔여량 -15,604.20 -13,611.50 87.2

한국전기산업연구원 7 러시아 에너지시스템 시장 현황

2012 지표 2011, mln kWh mln kWh 2012/2011, % 볼가 중부 UPS 전력 출력, 전체 110,271.00 110,036 99.8 TPP 포함 56,713.10 54,911.30 96.8 HPP 포함 19,563.50 21,580.90 110.3 NPP 포함 32,417.50 31,666.90 97.7 산업용 전력 상태 1,576.90 1,876.50 119 전력 소비 108,005.00 108,503.80 100.5 잔여량 -2,266.00 -1,531.80 67.6 우랄지역 UPS 전력 출력, 전체 255,786.70 259,072.70 101.3

출처 : JSC ≪SO UES≫

<표 7> 2013년 1-11월 전력 잔여량, mln kWh

UPS 전력 출력 전력 소비 잔여량 중부 UPS 192,058.2 187,762.8 -4,295.4 볼가 중부 UPS 93,120.0 89,036.2 -4,083.8 우랄지역 UPS 211,770.2 211,436.6 -333.6 북서부 UPS 81,773 73,455.70 -8,316.90 남부 UPS 67,995 69,627.50 1,632.70 시베리아 지역 UPS 161,553.10 168,563.00 7,009.90 동부 UPS 28,440.90 25,397.00 -3,043.90 러시아 통합 에너지 시스템 836,709.8 825,278.8 -11,431.0

출처 : JSC ≪SO UES≫

2. 주요 시장 참여자들

러시아 에너지 시스템의 주요 시장 참여자들은 <표 8>에 열거되어 있다.

8 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

<표 8> 러시아 에너지 시스템 주요 시장 참여자

시장 회사 유형 회사 시설 / 지사 부문 발전 도매발전회사 WGC-1 (Tyumen city, ∙ Perm SDPP (Dobryanka city, Perm region) (WGCs) www.ogk1.com) ∙ Kashira SDPP-4 (Kashira city, Moscow region) ∙ Nizhnevartovskaya SDPP (Izluchinsk settlement, KHMAO) ∙ Urengoyskaya SDPP (Limbyaaha settlement, YANAO) ∙ Iriklino SDPP (Energetic settlement, Orenburg region) ∙ Verkhnetagilsk SDPP (Sverdlovsk region, Verkhny Tagil city)

WGC-2 (Solnechnogorsk ∙ Pskov SDPP (Pskov region, Dedovichi settlement) settlement, Stavropol ∙ Serov SDPP (Sverdlovsk region, Serov city) territory, www.ogk2.ru) ∙ Stavropol SDPP (Stavropol territory, Solnechnodolsk settlement) ∙ Surgut SDPP-1 (Tyumen region, Surgut city) ∙ Troitsk SDPP (Chelyabinsk region, Troitsk city)

WGC-3 (Ulan-Ude city, ∙ Kostroma SDPP (Kostroma region, Volgorechensk city) Republic of Buryatia, ∙ Pechora SDPP (Komi Republic, Pechora city) www.ogk3.ru) ∙ Gusinoozersk SDPP (Republic of Buryatia, Gusinoozersk city) ∙ Kharanorsk SDPP (Chita region, Olovyaninski district, Yasnogorsk settlement) ∙ Cherepetsk SDPP (Suvorov city) ∙ Yuznouralsk SDPP (Yuzhnouralsk city)

WGC-4 (E.ON Russia) ∙ Surgut SDPP-2 (Hanti-Mansiysk autonomous area, Surgut city) (Surgut city, ∙ Berezovsk SDPP-1 (Krasnoyarsk region, Sharypovo city) Hanti-Mansiysk ∙ Shatura SDPP-5 (Moscow region, Shatura city) autonomous area — ∙ Smolensk SDPP (Smolensk region, Ozerniy settlement) Yugra, www.eon-russia.ru) ∙ Yayva SDPP (Perm region, Yayva settlement)

WGC-5 (Yekaterinburg ∙ Konakovo SDPP (Tver region, Konakovo city) city, Sverdlovsk region, ∙ Nevinomyssk SDPP (Stavropol region, Nevinomyssk city) www.ogk-5.com) ∙ Reftino SDPP (Sverdlovsk region) ∙ Sredneuralsk SDPP (Sverdlovsk region, Sredneuralsk city)

WGC-6 (Rostov-on-Don ∙ Novocherkassk SDPP (Rostov region, Novocherkassk city, city, www.ogk6.ru) Donskoy settlement) ∙ Kirishi SDPP (Leningrad region, Kirishi city) ∙ Ryazan SDPP (Ryazan region, Pronskiy district, Novomichurinsk city) ∙ Krasnoyarsk SDPP-2 (Zelenogorsk city, Krasnoyarsk territory) ∙ SDPP-24 (Ryazan region, Pronskiy district, Novomichurinsk city) ∙ Cherepovetsk SDPP (Vologda region, Kadui settlement)

RusHydro (Moscow city, ∙ HEPPs of Northern Caucasia (34 HEPPs) www.rushydro.ru) ∙ Zagorsk HEPSPP ∙ Volga-Kama Cascade of HEPPs (Volga HEPP, Nizhni Novgorod HEPP, Rybinsk HEPP, Uglich HEPP, Zhigulyovsk HEPP, Saratov HEPP, Cheboksari HEPP, Kama HEPP, Votkinsk HEPP) ∙ HEPPs of the Far East Region and Siberia (Sayano-Shushensk HEPP, Novosibirsk HEPP, Zeya HEPP, Bureya HEPP, Boguchansk HEPP)

한국전기산업연구원 9 러시아 에너지시스템 시장 현황

시장 회사 유형 회사 시설 / 지사 부문 지역 발전회사 TGC-1 (St. Petersburg ∙ Kolsky Branch (Murmansk region): (TGCs) city, www.tgc1.ru) – Nivsky Cascade of HEPPs – Tulomsky Cascade of HEPPs – Pazsky Cascade of HEPPs – Serebryansky Cascade of HEPPs – Apatitskaya CHPP – Murmanskaya CHPP ∙ Karelsky Branch (Republic of Karelia): – Petrozavodskaya CHPP – Vygsky Cascade of HEPPs – Kemsky Cascade of HEPPs – Sunsky Cascade of HEPPs – Group of small HEPPs – Diesel PP ∙ Nevsky Branch: – Tsentralnaya CHPP (St. Petersburg) – Pravoberezhnaya CHPP-5 (St. Petersburg) – Vasileostrovskaya CHPP-7 (St. Petersburg) – Pervomaiskaya CHPP-14 (St. Petersburg) – Yuzhnaya CHPP-22 (St. Petersburg) – Avtovskaya CHPP-15 (St. Petersburg) – Vyborgskaya CHPP-17 (St. Petersburg) – Dubrovskaya CHPP-8 (Leningrad region) – Volkhovskaya HEPP (Leningrad region) – Narvskaya HEPP (Leningrad region) – Vuoksinsk Cascade of HEPPs (Leningrad region) – Svirsk Cascade of HEPPs (Leningrad region) TGC-2 (Yaroslavl city, ∙ Arkhangelsk Central Administrative Board: www.tgc-2.ru) – Arkhangelsk CHPP – Severodvinsk CHPP-1 – Severodvinsk CHPP-2 – Arkhangelsk Heat Network Branch – Severodvinsk Heat Network Branch ∙ Vologda Central Administrative Board: – Vologda CHPP – Mini-CPP "The Beliy Ruchey" (Depot settlement, Vytegorsk area) ∙ Kostroma Central Administrative Board: – Kostroma CHPP-1 – Kostroma CHPP-2 – Sharya CHPP ∙ Novgorod Central Administrative Board: – Novgorod CHPP ∙ Tver Central Administrative Board: – Tver CHPP-1 – Tver CHPP-3 – Tver CHPP-4 – Vishne-Volotsk CHPP – Kamensk Industrial Boiler House – Tver Heat Network Branch ∙ Yaroslavl Central Administrative Board: – Yaroslavl CHPP-1 – Yaroslavl CHPP-2 – Yaroslavl CHPP-3 – Yaroslavl Heat Network Branch

10 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

시장 회사 유형 회사 시설 / 지사 부문

TGC-3 (Moscow city, ∙ HPS-1 Moscow www.mosenergo.ru) ∙ SDPP-1 Moscow region ∙ CHPP-8 Moscow ∙ CHPP-9 Moscow ∙ CHPP-11 Moscow ∙ CHPP-12 Moscow ∙ CHPP-16 Moscow ∙ CHPP-17 Moscow region ∙ CHPP-20 Moscow ∙ CHPP-21 Moscow ∙ CHPP-22 Moscow region ∙ CHPP-23 Moscow ∙ CHPP-25 Moscow ∙ CHPP-26 Moscow ∙ CHPP-27 Moscow region

TGC-4 (Tula city, ∙ Belgorod Regional Generation (Belgorod region) www.tgk-4.ru) ∙ Bryansk Regional Generation (Bryansk region) ∙ Voronezh Regional Generation (Voronezh region) ∙ Kaluga Regional Generation (Kaluga region) ∙ Kursk Regional Generation (Kursk region) ∙ Lipetsk Regional Generation (Lipetsk region) ∙ Orel Regional Generation (Orel region) ∙ Ryazan Regional Generation (Ryazan region) ∙ Smolensk Regional Generation (Smolensk region) ∙ Tula Regional Generation (Tula region) ∙ Tambov Regional Generation (Tambov region)

TGC-5 (Perm city, ∙ Kirov branch (Kirov region): www.tgc5.ru) – Kirov CHPP-1 – Kirov CHPP-3 – Kirov CHPP-4 – Kirov CHPP-5 ∙ Mari branch (Republic of Mari El): – Ioshkar-Ola CHPP-2 ∙ Udmurtia branch (Republic of Udmurtia): – Izhevsk CHPP-1 – Izhevsk CHPP-2 – Sarapulsk CHPP ∙ Chuvashia branch (Republic of Chuvashia): – Cheboksary CHPP-1 – Cheboksary CHPP-2 – Novocheboksarskaya CHPP-3

한국전기산업연구원 11 러시아 에너지시스템 시장 현황

시장 회사 유형 회사 시설 / 지사 부문 TGC-6 (Nizny Novgorod ∙ Vladimir branch (Vladimir region): city, www.tgc6.ru) – Vladimir CHPP-1 – Vladimir CHPP-2 – Vladimir Trunk Power Grids ∙ Ivanovo branch (Ivanovo region): – CHPP-1 (Ivanovo) – CHPP-2 (Ivanovo) – CHPP-3 (Ivanovo suburbs) ∙ Penza branch (Penza region): – Penza CHPP-1 – Kuznetskaya CHPP-3 ∙ Mordovia branch (Republic of Mordovia): – Saransk CHPP-2 – Alekseevsk CHPP-3 – Central Boiler House – North-Western Boiler House ∙ Nizhni Novgorod branch (Nizhni Novgorod region): – Nizhni Novgorod SDPP (Balakhna) – Sormovskaya CHPP – Igumnovskaya CHPP (Dzerzhinsk) – Novogorkovskaya CHPP (Kstovo)

TGC-7 (Samara city, – Togliatti CHPP (Togliatti) www.votgk.ru) – AVTOVAZ CHPP (Togliatti) – Novokuibushevsk CHPP-1 (Novokuibushevsk) – Novokuibushevsk CHPP-2 (Novokuibushevsk) – Samara CHPP (Samara) – Syzran CHPP (Syzran) – Bezymyanka CHPP (Samara) – Samara SDPP (Samara) – Samara Heat Networks (Samara) – Togliatti Heat Networks (Togliatti) – Samara Motor Depot (Samara) – Balakovo CHPP-4 (Balakovo) – Saratov ТЭЦ-2 (Saratov) – Saratov SDPP (Saratov) – Saratov Heat Networks (Saratov) – Saratov Motor Transport Establishment (Saratov) – Ulyanovsk CHPP-1 (Ulyanovsk) – Ulyanovsk CHPP-2 (Ulyanovsk) – Ulyanovsk CHPP-3 (Ulyanovsk region) – Ulyanovsk Heat Networks (Ulyanovsk) – Samara UKK (Samara) – Saratov CHPP-5 (Saratov region) – Ulyanovsk UKK (Ulyanovsk) – Engels CHPP-3 (Engels)

12 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

시장 회사 유형 회사 시설 / 지사 부문

TGC-8 ∙ Astrakhan Generation branch (Astrakhan region, Astrakhan): (Rostov-on-Don city, – Astrakhan SDPP www.ekoenergo.lukoil.ru) – Astrakhan CHPP-2 – Central Boiler House – Municipal Unitary Enterprise "Heat Networks" in the city of Astrakhan ∙ Volgograd Generation branch (Volgograd region, Volgograd): – Volgograd SDPP – Volgograd CHPP-2 – Volgograd CHPP-3 – Volga CHPP-1 – Volga CHPP-2 – Kamyshin CHPP – Municipal Unitary Enterprise "Heat Networks" in the city of Volzhskiy, under lease – Municipal Unitary Enterprise "Heat Networks" in the city of Kamyshin, under lease ∙ Dagestan Generation branch (Republic of Dagestan, Makhachkala): – Makhachkala CHPP – Kaspiy CHPP ∙ Rostov Generation branch (Rostov region, Volgodonsk): – Volgodonsk CHPP-2 – Zimlyansk SDPP – Kamensk CHPP – Municipal Unitary Enterprise "Heat Networks" in the city of Kamyshin, in trust ∙ Rostov City Generation branch (Rostov region, Rostov): – Rostov CHPP-2 – Boiler Houses RTS ∙ Stavropol Generation branch (Stavropol territory, Kislovodsk): – Kislovodsk CHPP – Boiler Houses – Boiler House ≪Mashuk≫ in PT ∙ Kuban Generation Company (Krasnodar territory, Kransodar): – Krasnodar CHPP – Belorechensk SDPP – Maikop SDPP – Krasnopolyanskaya SDPP

한국전기산업연구원 13 러시아 에너지시스템 시장 현황

시장 회사 유형 회사 시설 / 지사 부문 TGC-9 (Perm city, ∙ Branches of TGC-9 in Perm territory: www.tgc9.ru) – Berezniky CHP-2 (Perm territory, Berezniki) – Kizel SDPP-3 (Perm territory, Gubakha) – Zakamskaya CHPP-5 (Perm territory, Krasnokamensk) – Perm CHPP-9 (Perm) – Perm CHPP-13 (Perm) – Perm CHPP-14 (Perm) – Chaikovsky CHPP-18 (Perm territory, Chaikovsky) – Perm Heat Networks (Perm) – Perm Region Engineering and Technical Center (Perm) – Logistics Center (Perm) ∙ Branches of TGC-9 in Sverdlovsk region: – Artemovsky CHPP (Sverdlovsk region, Artemovsky) – Bogoslovsk CHPP (Sverdlovsk region, Krasnoturiinsk) – Kachkanar CHPP (Sverdlovsk region, Kachkanar) – Krasnogorsk CHPP (Sverdlovsk region, Kamensk-Uralsky) – Nizhneturinsk SDPP (Sverdlovsk region, Nizhnyaya Tura) – Novo-Sverdlovsk CHPP (Yekaterinburg) – Pervouralsk CHPP (Sverdlovsk region, Pervouralsk) – Sverdlovsk CHPP (Yekaterinburg) – Sverdlovteplosbyt (Yekaterinburg) – Sverdlovsk Region Engineering and Technical Center (Yekaterinburg) – Sverdlovsk Heat Networks (Yekaterinburg) ∙ Branches of TGC-9 in the Komi Republic: – Vorkuta CHP-2 (Komi Republic, Vorkuta) – Sosnogorsk CHP (Komi Republic, Sosnogorsk) – Inta CHP (Komi Republic, Inta) – Syktyvkar Heat Networks (Komi Republic, Syktyvkar) – Ukhta Heat Networks (Komi Republic, Ukhta)

TGC-10 (Chelyabinsk city, – Tyumen CHP-1 (Tyumen) www.fortum.ru) – Tyumen CHP-2 (Tyumen) – Tyumen Heat Networks (Tyumen) – Tobolsk CHPP (Tobolsk) – Surgut Heat Networks (Surgut) – Argayashskaya CHPP (Chelyabinsk region, Ozersk) – Chelyabinsk CHPP-1 (Chelyabinsk) – Chelyabinsk CHPP-2 (Chelyabinsk) – Chelyabinsk CHPP-3 (Chelyabinsk) – Orden of Lenin Chelyabinsk SDPP (Chelyabinsk) – Chelyabinsk Heat Networks (Chelyabinsk)

TGC-11 (Omsk city, – Tomskenergo (Tomsk region) www.tgk11.com) – Omsk Power Generation Company (Omsk region)

TGC-12 (Kemerovo city, ∙ Tom-Usinskaya SDPP www.kuzbassenergo.ru) ∙ Belovskaya SDPP ∙ Novo-Kemerovskaya CHPP ∙ Barnaulskaya CHPP-3 ∙ Kuznetskaya CHPP

14 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

시장 회사 유형 회사 시설 / 지사 부문 TGC-13 (Krasnoyarsk city, – Krasnoyarsk CHPP-1 www.tgk13.ru) – Krasnoyarsk CHPP-2 – Krasnoyarsk CHPP-3 – Kanskaya CHPP – Minusinskaya CHPP – Sosnovoborskaya CHPP – Nazarovskaya SDPP – Kransoyarsk Heat Network – Abakan CHPP

TGC-14 (Chita city, ∙ Chita Generation, structural departments: www.tgk-14.com) – Chita CHPP-1 – Chita CHPP-2 – Sherlovogorskaya CHPP – Priargunskaya CHPP ∙ Buryatia Generation, structural departments: – Ulan-Udenskaya CHPP-1 and CHPP-2 – Timluiskaya CHPP

Orenburg TGC ∙ Orskaya CHPP-1 (Orenburg city, ∙ Sakmarskaya CHPP www.ortgk.ru) ∙ Kargalinskaya CHPP ∙ Orenburg heating lines

원자력 발전소 Rosenergoatom ∙ Balakovo NPP (Saratov region) (Moscow city, ∙ Beloyarsk NPP (Sverdlovsk region) www.rosenergoatom.ru) ∙ Bilibino NPP (Chukotka autonomous area) ∙ Kalinin NPP (Tver region) ∙ Kola NPP (Kola Peninsula) ∙ Kursk NPP (Kursk Region) ∙ Leningrad NPP (Leninrgad region) ∙ Novo-Voronezh NPP (Voronezh region) ∙ Rostov NPP (Rostov region) ∙ Smolensk NPP (Smolensk region)

전력 전송 회사 Federal Grid Company of ∙ 8 regional branches — Backbone Electric Grids (MES of 전송 Unified Energy Center, MES of North-West, MES of Volga, MES of South, MES System (Moscow city, of Urals, MES of West Siberia, MES of Siberia, MES of East) www.fsk-ees.ru) ∙ 42 Backbone Electric Grid Transmission Line Companies (PMES)

관리 시스템 운영 System Operator of the ∙ Executive apparatus Unified Power System ∙ 7 branches — Interregional Dispatching Offices (IDO of East, (Moscow city, IDO of Siberia, IDO of Urals, IDO of Mid-Volga, ISO of South, www.so-cdu.ru) IDO of Center, IDO of North-West) ∙ 56 branches — Regional Dispatching Offices ∙ 8 representation offices (in Bryansk, Ivanovo, Kaluga, Oryol, Pskov, Tambov regions, Republic of Mordovia, and Sakha (Yakutia) Republic) ∙ JSC ≪Scientific and Technical Center of Unified Power System≫3 (subsidiary)

한국전기산업연구원 15 러시아 에너지시스템 시장 현황

3. 국가 정책 및 규제

러시아 정부는 2003년 3월 26일 제정된 ｢전력산업연방법｣ #35-FZ에 따라 전력 부문을 관리하고 있다. 이 법률에 따르면 다음과 같은 정부의 규제 및 관리가 전력 부문에 적용된다.

∙ 전력 부문에서의 정부의 규제 및 관리(감독)은 러시아 연방의 입법에 따른 천연 자원 독점 사업체의 활동 영역에 대한 것으로서, 전력 부문에서의 천연 자원 독점에 대한 투자 활동의 규제를 포함하는 천연 자원 독점에 대한 법률에 따라 시행 ∙ 특정 유형의 제품(서비스)의 가격(관세)에 대한 정부 규제는 전기 전력 분야에서의 공공 규제 가격(관 세)에 대한 연방 법률 및 정부 관리(감독)에 의해 정의 ∙ 전력의 송전에 대한 파워 그리드 및 서비스의 접근에 대하여 러시아 연방 규칙에서 공통 법규의 확립 및 정부 반독점 규제 ․ 관리를 포함 ∙ 전력 부문에서 국가 재산의 관리 ∙ 연방 국가 에너지 감독 ∙ 전력 부문에서 연방 환경 관리

그리고 전력산업연방법은 다음과 같은 내용을 규정하고 있다.

∙ 발전설비의 건설, 자금 조달을 위한 절차 및 조건, 수선 및 해체에 있어서 전력설비의 출력 순서를 정의 ∙ 장기적 측면에서의 러시아 개발의 UNEG을 위한 체계와 프로그램의 개발, 조정 및 승인 과정을 주도 ∙ 사업체로서 전력 부문 법인들의 분류에 대한 기준을 수립하며, 이들 사업체의 투자 프로그램(자금 조달 의 출처 확인을 포함)은 연방 행정부 및 주관 행정부에 의해 승인되어야 하고, 이러한 투자 프로그램의 승인 절차(러시아 연방 주관 행정부와의 조정 과정을 포함)를 감독하고 이들 프로그램의 실시를 관리 ∙ 기술적으로 격리된 지역 전력시스템의 현황, 이 시스템에서의 운영 ․ 처리 ․ 관리상 문제의 현황 및 시 스템 내에서의 절차를 포함한 전력 부문에서의 운영 ․ 처리 ․ 관리 등을 위한 규칙을 승인 ∙ 에너지 절약 분야에서 국가정책의 주된 방향을 설정 ∙ 전력시스템의 기술적 기능에 대한 규칙을 승인

또한 러시아 연방정부 및 연방정부로부터 권한을 위임받은 행정부는 다음의 같은 업무를 수행하여야 한다.

∙ 도시 전력 부문의 분야를 포함하여 전력 부문의 개발을 위한 프로그램의 수립 ∙ 에너지 잔여량 예측 및 경제 분야에서 필요로 하는 전기와 열을 확보하는 것을 목적으로 하는 측정 시스템의 수립을 포함하여 도매 및 소매 시장에서 장기적 수요 공급의 전망을 위한 국가 시스템의 수립 및 유지 ∙ 전력과 관련된 국가 재산의 운영 ∙ 연방에 의한 전력 부문의 개발에 대해 시행된 투자의 출처 및 이를 유치하기 위한 방법의 확인 ∙ 연방 행정부에 의해 승인 ․ 모니터링되고 있는 전력 부문 사업체의 투자 프로그램 승인 ∙ 연방법에 의해 규정된 방식에 따라 전력 부문 사업체의 투자 프로그램에 대해 모니터링을 수행

16 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

4. 2012년 러시아 시장의 규모와 구조

2012년 기준, 주요 시장참여자의 총 자본투자는 5,637억 루블(RUB)로, 도매 전력생산 52.8%, 국토 전력 생산 13.0%, 전력송전 34.2%(<표 9> 참조)의 비율을 보이고 있다.

<표 9> 2012년 주요 러시아 에너지 시스템 시장 참여자의 자본투자 현황

시장 부문/회사 자본 투자(mln RUB) 발전 371,074.40 도매 발전 297,815.40 WGC-1 n/a WGC-2 15,857.70 WGC-3 n/a WGC-4 7,120.00 WGC-5 12,207.30 WGC-6 n/a

RusHydro(RSC 포함, ≪동부 에너지시스템≫) 116,400.00 Rosenergoatom 146,230.50

지역 발전 73,259.00 TGC1 12,439.00 TGC2 n/a TGC3 19,310.00 TGC4 9,475.80 TGC5 4,853.00 TGC6 7,070.00 TGC7 4,037.00 TGC8 n/a TGC9 9,093.00 TGC10 n/a TGC11 5,724.8 TGC12 n/a TGC13 n/a TGC14 1,076.7 Orenburg TGC 179.7

Power transmission 192,684.0 FGC UES 192,684.0

Management n/a SO UPS n/a

TOTAL 563,758.4

한국전기산업연구원 17 러시아 에너지시스템 시장 현황

5. 산업 발전의 전망 및 예상(계획된 프로젝트)

가. 2013~2019년 기간의 러시아 UES 개발을 위한 체계 및 프로그램

이 프로그램에 따르면, 러시아 UES에서의 전력 소비는 2012년의 1조165억 kWh에서 2019년에는 1조 1,510억 2백만kWh로 증가할 예정이다(<그림 1> 참조).

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

<그림 1> 2013-2019년 전력 소비의 예측, bln kWh

2014~2019년 기간 동안 러시아 UES의 새로운 발전소들의 시운전이(실현될 가능성이 매우 높음) 26,180.4MW의 용량으로 계획되어 있으며, 여기에는 NPP 11,267.6MW, HPP 688.5MW, PSPP 350.0MW, TPP 13,862.3MW, 및 RES 12MW가 포함되어 있다.

<표 10> 2012년 주요 러시아 에너지 시스템 시장 참여자의 자본 투자

2014-2019 2014 2015 2016 2017 2018 2019 total 러시아 9,115.4 8,510.1 3,023.0 2,794.9 1,587.0 1,150.0 26,180.4 UES-전체 NPP 3,178.80 2,368.80 1,170.00 2,250.00 1,150.00 1,150.00 11,267.60 HPP 4.8 168.8 170.0 344.9 688.5 PSPP 350.0 350.0 TPP 5,581.8 5,972.5 1,671.0 200.0 437.0 13,862.3

CHPP 포함 3,818.0 1,794.5 791.0 200.0 437.0 7,040.5 CPP 1,763.8 4,178.0 880.0 6,821.8 RES 12.0 12.0

교체 포함 65.0 115.0 120.0 300.0 HPP 65.0 115.0 120.0 300.0

CHPP 포함 65.0 115.0 120.0 300.0

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

18 Russian Energy Systems Market Research 제1부 러시아 에너지 시스템 시장

그리고 러시아 UES에 따른 발전회사들에 의한 발전용량의 신규 시운전 구조는 <그림 2>와 같다.

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

<그림 2> 러시아 UES에 따른 발전회사들에 의한 발전용량의 신규 시운전 구조

나. 2030년까지 전력할당을 위한 일반적 체계

이 체계에 따르면, 전력소비는 2030년에 1조 5,530억 내지‐1조 8,600억 kWh 규모로 증가할 것으로 예측 된다(<그림 3> 참조).

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

<그림 3> 2030년까지의 전력 소비 예측, bln kWh

2030년까지의 핵, 수력 및 열 발전 부문은 다음 그림들에 나타나 있다.

한국전기산업연구원 19 러시아 에너지시스템 시장 현황

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

<그림 4> 원자력 부문의 시운전구조와 발전량 프로그램, GW

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

<그림 5> 수력 부문의 시운전구조와 발전량 프로그램, GW

출처: 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

<그림 6> 열 발전부문의 시운전구조와 발전량 프로그램, GW

20 Russian Energy Systems Market Research 제2부 러시아 파워그리드(Power Grid) 시장

제2부 러시아 파워그리드(Power Grid) 시장

1. 러시아에서의 파워그리드 : 일반 정보(구조, 길이 등)

가. 백본 그리드

2012년 기준, 러시아 UNEG에 포함된 PTL의 총 길이는 13만1천6백 km에 이르렀으며, SS의 개수는 891 개로서 총 변환 용량은 334,800 MVA를 초과하였다.

<표 11> 2011-2012 러시아 UNEG에 포함된 PTL 길이와 SS 개수

지표 2011 2012 2012/2011, % PTL 길이, ths km 124.5 131.6 5.7 SS의 수, pcs 854 891 4.3

출처 : JSC《FGC UES》

PTL 220kV 및 500kV가 전체 송전선로에서 최대 부분을 차지하고 있다(각각 58.9% 및 27.8%)(<그림 7> 참조). 그리고 SS 220kV는 총 변환기 용량의 44.4%에 해당하며, 500kV는 36.0%를 차지하고 있다.(<그림 8> 참조).

출처 : JSC《FGC UES》 <그림 7> 2012년 전압별 PTL 길이(km)

한국전기산업연구원 21 러시아 에너지시스템 시장 현황

출처 : JSC《FGC UES》 <그림 8> 2012년 전압별 SS용량(MVA)

한편, 220kV 이상의 UNEG 그리드의 지역적 분배는 <그림 9>에서 확인할 수 있다.

출처 : JSC《FGC UES》

<그림 9> 2012년 220kV 및 그 이상 UNEG 그리드의 지역적 분배(ths, km)

UNEG의 송전설비 마모율은 평균적으로 41% 수준을 보이고 있으며, 특히 SS 장비의 마모율은 65%, PTL은 36%, 빌딩은 23%로 나타나고 있다. 그리고 25년 이상 사용된 마모 송전설비의 비율은 SS가 47%(35년 초과 사용 17%), PTL 67% (40년 초과 사용 26%)이다.

나. 배전망

2012년 말 현재, 35kV 이상의 가공(架空) 송전선로의 총 길이는 417,700km에 해당하며, 0.4~20 kV 선 로는 1,546,300km이고, 450,000개 SS의 용량은 403.6GVA를 초과한다. 0.4~20 kV의 송전 설비가 주로 사용되고 있으며, PTL은 약 79%이고, EPS 또한 70%를 초과하고 있다. 배전망은 JSC(지역간 배전망 지주회사)인 IDGC 지주회사에 의해 운영되어 왔으며, 2013년 이후에는 Russian Grids가 그 역할을 담당하고 있다. IDGC 지주회사의 고정자산 마모율은 평균적으로 69% 수준을 보이고 있으며, 30년을 초과하여 사용된 OL 0.4~110(220)kV의 비율은 57%이다. 교체를 요하는 장비의 목록과 수량은 다음과 같다.

22 Russian Energy Systems Market Research 제2부 러시아 파워그리드(Power Grid) 시장

∙ SS 35~220 kV ‒ 4,700개 ∙ 변환기 35~220 kV ‒ 11,800개 ∙ 누전 차단기 6~220 kV ‒ 73,000개 ∙ OL 35~220 kV ‒ 170,000 km ∙ CL 6~220 kV ‒ 39,400 km ∙ TS(DP) 6~20 kV ‒ 143,000 개

2. 주요 시장참여자

가. 송전설비의 관리

1) FGC UES(모스크바, www.fsk-ees.ru)

이 회사는 2002년에 러시아 전력 부문의 개혁 패키지에 따라 설립되었다. 송전설비 분야의 자연독점 기업으로 국가의 전략적 기관에 포함되어 있으며 백본 그리드를 통한 송전에 주안점을 두고 있다. 이 회사의 주요 활동은 다음과 같다.

∙ UNEG 관리 ∙ WECM 법인을 위한 송전 및 기술적 연계 서비스의 수행 ∙ UNEG를 개발하기 위한 투자 활동 ∙ 전력설비의 적절한 유지 및 기술 감독

이 회사의 최대주주는 러시아 연방으로 대리인은 ‘국가재산 운영을 위한 연방기구(Federal Agency for State Property Management, 로시무쉬체스트보(Rosimushchestvo))이며, 주식 자본의 71.07%를 보유하고 있다.3 2010~2012년 기간 FGC의 주요 기능 및 재정 상황은 <표 12>에 간략히 소개되어 있다.

<표 12> 2010-2012년 FGC의 주요 기능 및 재정(IFRS) 상황

2010 2011 2012 PTL 길이, ths km 121.7 124.6 131.6 SS 개수, pcs 805 854 891 수익(순익), mln RUB 111,085 138,137 138,836 조정된 세전 ․ 이자지급전이익(adjusted EBITDA) 67,405 84,683 82,847 세전 이익(손실), mln RUB 67,312 11,444 14,232 순(유보)이익(손실), mln RUB 57,082 -2,468 -24,502 수정된 이익*, mln RUB 25,702 33,687 13,413 순자산 가치, mln RUB 794,470 853,801 849,877 시가총액, mln RUB 452,717 351,138 253,905

출처 : FGC UES * 자산 재평가 및 불확실한 채무 규정과 증권에 대한 규정에 따른 취득과 복구에 의한 손실은 반영하지 않음.

3 2013년 10월 1일자 기업 및 조직의 연방 통합 기록부에 따름.

한국전기산업연구원 23 러시아 에너지시스템 시장 현황

2) Russian Grids & IDGC(모스크바, www.rugrids.ru, www.holding-mrsk.ru)

JSC는 RAO(러시아 UES)가 2007년 10월 26일 별도 회사로서 재조직됨에 따라 설립되었다. IDGC 지주회사는 러시아 연방의 전기 부문에서 활동하는 회사로서, 지역 간 및 지역 내의 배전망 기업 (IDGCs/RDGCs), 연구 및 개발 기관, 설계 및 건설 기관, 및 설계 및 판매 사업체로 구성된다. IDGC 지주회사의 사업 분야는 0.4kV에서 220kV에 이르는 10개의 전압 유형으로 구분되는 전력네트워 크를 포함하고 있으며, 자회사가 관리하는 네트워크의 총 길이는 210만 km를 초과하였다. 그런데 2013년 3월 23일, IDGC는 합작 주식회사인 Russian Grids로 기업명을 공식적으로 변경하였다. 현재 Russian Grids는 러시아 최대의 송전 및 배전망 회사에 해당하는데, 최대 주주는 러시아 연방으로 ‘국가재산 운영을 위한 연방기구(Federal Agency for State Property Management, 로시무쉬체스트보 (Rosimushchestvo)가 대리인 역할을 수행하고 있으며, 주식 자본의 40.76%를 보유하고 있다4. 회사의 다른 주요 주주 현황은 다음과 같다(2013년 10월 1일 현재).

∙ Rusenergo Fund Limited 3.56% ∙ Gazprom Energoholding 3.3% ∙ Index of Energy-FGC UES 2.33% ∙ MMC Norilsk Nickel 2.28%

2012년 배전사업에서 활동하는 회사의 자회사들의 경제적 ․ 재정적 주요 지표는 <표 13>에 나타나 있는 바와 같다.

<표 13> 2012년 배전업 참여 자회사의 주요 경제적 ․ 재정적 지표

(단위 : mln RUB) 지표 2012 계획 2012 실행 편차 순세입 582,221 581,443 -778 세전 ․ 이자지급전이익 98,608 104,942 6,334 순이익(손실) 14,238 21,504 7,266 대출 자산 243,120 224,593 -18,527 현금영업이익 비율 2.49 2.14 -0.35 순자산가치 622,978 648,532 25,554

출처 : IDGC Holding

4 2013년 10월 1일자 사업체 및 조직의 통합 기록부에 따름.

24 Russian Energy Systems Market Research 제2부 러시아 파워그리드(Power Grid) 시장

나. 송전설비의 건설 및 보수

FGC UES 및 Russian Grids(또는 IDGC)의 주문에 따라 엔지니어링을 포함한 백본 및 분배 송전설비의 건설 및 보수 서비스를 제공하는 주요 러시아 회사들은 다음 <표 14>에 열거되어 있다.

<표 14> 기간망 회선 및 송전설비 건설 및 보수 서비스 관련 주요 회사

(단위 : mln RUB) 회사 지역 URL 2012년 순세입, mln RUB Energostroyinvest-Holding Moscow www.esih.ru 1,148.6 Stroytransgaz Moscow www.stroytransgaz.ru 6,694.2*

ECC ≪Soyuz-Grid≫ Moscow www.soyuz-corp.ru 21,241.4 Velesstroy Moscow www.velesstroy.com 26,605.7** Rusengineering Moscow www.rus-en.ru 151.8*** EFESk St. Petersburg www.efesk.ru 4,829.7 Industek Moscow www.industek.ru n/a TOK Stroy Stavropol Krai www.amcomp.ru 22,642.4** GlobalElectroService Moscow www.global-es.ru 19,992.4 Engineering center UES Moscow www.powereng.ru 7,428.0 Uralelectrostroy Orenburg www.ues-company.ru 7,199.3 Thermoservice Moscow www.thermoservice.ru 15,611.6** Moskabelsetmontazh Moscow www.oaomksm.ru 2,794.4 Energostroy-M.N. Moscow www.energostroy-mn.ru n/a ElectroSetService UNEG Moscow www.ess-enes.ru 4,386.7

출처 : 각 회사의 재무제표 및 연차보고서 * 에너지 부문 건설에서의 순수익. ** 모든 비즈니스 부문에서의 순수익. *** 파워 그리드 건설 부문에서 홀딩 회사의 활동에 의한 순수익.

3. 2012년 파워 그리드 시장 규모

가. 백본 그리드

2012년 FGC UES의 자본투자 규모는 1,926억 8천4백만 RUB(실행률 103%) 규모로, 가공 송전선로를 시운전하기 위한 계획은 91%가 완수되었고(계획된 4,023km 대비 3,643km), 변전소를 시운전하기 위한 계획은 26% 초과 달성되었다(계획된 14,152MVA 대비 17,827MVA). 2012년도 주요 투자 분야는 <그림 10>에 나타나 있다.

한국전기산업연구원 25 러시아 에너지시스템 시장 현황

출처 : FGC UES <그림 10> 2012년 FGC UES의 자본투자 주요 분야

나. 배전망

2012년, IDGC의 투자기금 규모는 1,364억 5천9백만 RUB(VAT 제외)이며, 1,485억7천7백만 RUB(VAT 포함)의 자금이 투입되었고, 반면 시운전된 고정자산은 총 1,372억 2천9백만 RUB에 해당하였다. 2012년 의 시운전된 용량은 14,119MVA 및 28,790 km에 달하였다. 2012년 IDGC의 SDC 통합 투자 프로그램의 핵심요소들은 <표 15>에 나타나 있다.

26 Russian Energy Systems Market Research 제2부 러시아 파워그리드(Power Grid) 시장

<표 15> 2012년 IDGC홀딩스 SDCs의 통합 투자 프로그램 주요 지표

고정자산 수수료 자금, mln RUB 회사 자본투자 mln RUB (부가세포함) MVA km (부가세 제외) IDGC of Siberia 5 5,87 6,37 633 1,49

TDC 397 551 401 115 793

Tyumenenergo 10,9 9,29 11,42 865 716

IDGC of Urals 7,04 7,9 6,86 621 1,24

IDGC of Volga 9,25 11,09 8,74 780 1,75

IDGC of South 5,13 5,22 3,46 203 1,32

Kubanenergo 8,52 9,16 4,59 666 241

IDGC of Northern 5,5 5,83 3,19 242 1,47 Caucasus

NURENERGO 243 339 177 31 178

IDGC of Center 9,46 10,87 10,05 693 3,6 and Volga Region

IDGC of North- 6,79 8,16 6,28 469 1,84 West

LENENERGO 14,89 16 16,08 1,91 1,58

Yantarenergo 420 517 434 23 105

IDGC of Center 15,85 19,19 16,93 1,52 8,03

MOESK 36,1 37,43 39,1 4,79 4,32

Tyvaenergo 108 71 69 5 34

ENCE 872 1,1 3,1 553 90

Total for Holding 136,46 148,58 137,23 14,12 28,79

출처 : JSC《IDGC Holding》

2012년 기준, 자본투자 분야는 다음과 같다.

∙ 기술적 업그레이드 및 설비 갱신 — 749억 8,500만 RUB (52.2%); ∙ 신규 건설 — 544억 9,700만 RUB (37.9%); ∙ 기타 — 141억 9,000만 RUB (9.9%).

한국전기산업연구원 27 러시아 에너지시스템 시장 현황

4. 산업 발전의 전망과 예상(계획된 프로젝트)

가. 백본 그리드

1) 2013~2017년 FGC의 투자프로그램

2013~2017년 기간동안 FGC 투자프로그램의 총 재정내역은 7,755억 RUB을 초과하는 양이 될 것이다. 설비 시운전의 총량에 있어서 SS는 66,869.86MVA이고, PTL은 16,984.65km이다. FGC의 2013~2017년도 투자프로그램의 구조는 <그림 11>에 나타나 있다.

출처 : FGC UES <그림 11> 연방 전력망 회사의 2013-2017 투자 프로그램 구조

그리고 회사의 연간 투자 규모 및 구조는 <그림 12>에 나타나 있다.

출처 : FGC UES

<그림 12> 연방 전력망 회사의 2013-2017 투자 규모 및 우선도(bln RUB)

28 Russian Energy Systems Market Research 제2부 러시아 파워그리드(Power Grid) 시장

회사의 2013~2017년도 투자프로그램의 실현결과, 66,869.86MVA의 변환기 용량과 16,984.65 km의 송 전선로가 작동하게 된다(<그림 13> 참조).

출처 : FGC UES

<그림 13> 2013-2017 전력망 시설의 가동량

회사의 2014~2016년 핵심 투자프로젝트는 다음과 같다.

∙ ESPO 파이프라인을 위한 전력 공급 설비(2012~2014) ∙ Vankorskoye 평원의 전력 공급 설비의 건설(2013~2014) ∙ Leningradskaya) NPP 2의 전력 단위설비 #1에 의해 생산된 전력(1,170MW)의 제공(2014) ∙ Neryungrinskaya SDPP로부터 Nizhniy Kuranakh-Tommot–Maya에 이르는 220KV 송전선로 및 220kV Tommot SS, 220kV Maya SS의 건설(2015) ∙ Zapolyarie Purpe 파이프라인에서 전력 공급 설비의 건설(2016)

2) 2013~2019년 기간의 러시아 개발 UES를 위한 체계 및 프로그램

러시아 개발 UES를 위한 체계 및 프로그램에 따르면, 2014~2019년 총 송전설비 시운전의 규모는 다음 과 같다.

∙ 가공 송전선로 220kV 이상 - 39,964.2 km ∙ 변환기 용량 - 113,584 MVA.

220kV 및 이를 초과하는 파워 그리드의 개발에 대한 요약 데이터는 <표 16>에 소개되어 있으며, 프로 젝트의 전체 목록은 [부록 1]을 참고하면 될 것이다.

한국전기산업연구원 29 러시아 에너지시스템 시장 현황

<표 16> 2014-2019년 러시아의 220kV 및 220kV 이상의 전력망 개발 데이터 요약

2014 2015 2016 2017 2018 2019 2014-2019 UPS SS, SS, SS, SS, SS, SS, SS, OL, km OL, km OL, km OL, km OL, km OL, km OL, km MVA MVA MVA MVA MVA MVA MVA UPS of 244.7 1,675 296.3 250 499.3 6,911 796.3 4,975 1,359.00 0 450.6 810 3,646.20 14,621 North-West

±300 kV 0 0 0 0 128 4,860 0 0 0 0 0 0 128 4,860

750 kV 0 0 0 0 132.5 1,000 0 0 0 0 450 0 582.5 1,000

330 kV 242.7 1,650 2 250 238.8 525 605.1 4,690 1,109.00 0 0.6 650 2,198.20 7,765

220 kV 2 25 294.3 0 0 526 191.2 285 250 0 0 160 737.5 996

UPS of 961.4 10,719 813.2 10,368 39 4,800 126 4,960 441.4 2,134 94 4,372 2,475.00 37,353 Center

750 kV 0 0 0 0 0 0 0 0 0 0 10 0 10 0

500 kV 322.8 2,419 477 1,503 0 1,000 110 2,000 0 334 60 1,502 969.8 8,758

330 kV 0 1,139 0 200 0 400 10 450 0 0 0 0 10 2,189

220 kV 638.6 7,161 336.2 8,665 39 3,400 6 2,510 441.4 1,800 24 2,870 1,485.20 26,406

UPS of 784 1,881 233.6 2,148 1,035.80 3,731 363.8 200 268 700 702.9 1,619 3,388.10 10,279 South

500 kV 426 0 0 0 782.8 2,171 300 0 0 0 519 1,169 2,027.80 3,340

330 kV 220 500 217.6 850 0 285 60 200 180 450 2 250 679.6 2,535

220 kV 138 1,381 16 1,298 253 1,275 3.8 0 88 250 181.9 200 680.7 4,404

UPS of 575.1 750 309 2,251 381 725 462 125 360 0 756.7 2,726 2,843.80 6,577 Mid-Volga

500 kV 400.1 750 0 1,250 286 0 0 0 160 0 541 1,551 1,387.10 3,551

220 kV 175 0 309 1,001 95 725 462 125 200 0 215.7 1,175 1,456.70 3,026

UPS of 1,613.30 5,341 1,250.00 3,529 784 3,121 1,139.60 3,460 332.3 1,878 610 500 5,729.20 17,829 Urals

500 kV 587.6 2,304 0 1,669 44 2,171 0 1,578 248.3 1,503 0 0 879.9 9,225

220 kV 1,025.70 3,037 1,250.00 1,860 740 950 1,139.60 1,882 84 375 610 500 4,849.30 8,604

UPS of 1,063.40 3,943 2,056.00 5,246 988.50 5,458 2,882.60 1,910 2,114.00 2,383 1,562.00 2,822 10,666.50 21,762 Siberia

500 kV 725.4 668 1,171.00 1,595 419 3,507 242.2 534 1,017.00 668 3 1,670 3,577.60 8,642

220 kV 338 3,275 885 3,651 569.5 1,951 2,640.40 1,376 1,097.00 1,715 1,559.00 1,152 7,088.90 13,120

UPS of 1,317.40 1,282 2,243.00 977 472.2 1,228 452.4 0 733.4 276 997 1,400 6,215.40 5,163 East

500 kV 0 0 0 0 0 0 450 0 0 0 280 0 730 0

220 kV 1,317.40 1,282 2,243.00 977 472.2 1,228 2.4 0 733.4 276 717 1,400 5,485.40 5,163

UES of 6,559.30 25,591 7,057.50 24,769 4,343.40 25,974 6,222.70 15,630 5,608.10 7,371 5,173.20 14,249 34,964.20 113,584 Russia

±300 kV 0 0 0 0 128 4,860 0 0 0 0 0 0 128 4,860

750 kV 0 0 0 0 133 1,000 0 0 0 0 460 0 593 1,000

UES of 2,461.90 6,141 1,648.00 6,017 1,531.80 8,849 1,102.20 4,112 1,425.30 2,505 1,403.00 5,892 9,572.20 33,516 Russia

±300 kV 462.70 3,289 76 1,300 382.40 1,210 675.1 5,340 1,289.00 450 2.60 900 2,887.80 12,489

750 kV 3,634.70 16,161 5,333.50 17,452 2,168.70 10,055 4,445.40 6,178 2,893.80 4,416 3,307.60 7,457 21,783.70 61,719

출처 : 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

30 Russian Energy Systems Market Research 제2부 러시아 파워그리드(Power Grid) 시장

USP에 의한 220kV 미만의 파워그리드 개발에 대한 요약데이터(2012년 승인된 러시아 연방 전력 부문 의 개발을 위한 체계 및 프로그램(schemes and programs for the development: S&PD)을 기초로 함)는 <표 17>에 소개되어 있으며, 러시아 연방의 주제별로는 [부록 2]에 정리되어 있다.

<표 17> UPS에 의한 220kV 미만 전력망 개발에 대한 데이터 요약

UPS Total length, km Total transformer capacity, MVA UPS of North-West 2,761.228 9,043.310 Ups of Center 12,471.908 14,434.565 UPS of Mid-Volga 730.400 1,811.300 UPS of South 3,427.480 7,725.680 UPS of Urals 1,343.430 3,319.200 UPS of Siberia 8,903.818 10,023.010 UPS of East 82.940 200.000 UES of Russia 29,721.204 46,557.065

출처 : 2013-2019 러시아 UES 개발을 위한 체계 및 프로그램

3) 2030년까지 전력 부문 개체의 할당에 대한 일반 체계

2030년까지의 전력 부문 개체들의 할당에 대한 일반적 체계에 따르면, 220kV 및 이를 초과하는 UNEG 그리드의 길이와 변환기 용량은 2030년까지 각각 28만km 및 64만 6.000 MVA에 해당할 것이다(<그림 14> 참조).

출처 : 2030년까지의 전력 부문 할당을 위한 일반적 체계

<그림 14> 2015-2030 전력망 시설의 가동량

2030년까지의 220kV 및 이를 초과하는 UNEG 그리드의 지역적 분배는 <그림 15>에 나타난 것과 같다.

한국전기산업연구원 31 러시아 에너지시스템 시장 현황

출처 : 2030년까지의 전력 부문 할당을 위한 일반적 체계

<그림 15> 2030년까지 220kV 및 220kV를 초과하는 UNEG망의 지역적 분배(ths km)

나. 분배 그리드

1) 2012~2017년 Russian Grids의 통합 투자프로그램

2012~2017년 기간에 대한 회사의 투자프로그램을 위한 총 자금은 9660억 RUB(VAT 포함)을 초과할 전망이다. 새로운 고정 자산의 총량은 다음과 같다

∙ 변환기 용량 - 65,258 MVA ∙ 송전선로 - 105,946 km.

회사의 연간 투자 및 고정자산의 시운전 규모는 <표 18>과 같다.

<표 18> 2012-2017년 Russian Grids의 통합 투자프로그램 핵심 수치

고정자산 수수료 자금, mln RUB 연도 자본투자 mln RUB (부가세포함) MVA km (부가세 제외) 2012 130,614 151,616 137,645 11,839 23,489 2013 147,110 170,729 152,098 10,028 15,157 2014 144,433 161,821 157,162 11,446 15,407 2015 133,998 156,674 140,041 11,333 15,434 2016 137,777 161,000 140,447 10,567 17,534 2017 136,472 164,195 148,996 10,044 18,924

2012-2017전체 830,405 966,035 876,389 65,258 105,946 2014-2017전체 552,680 643,690 586,646 43,390 67,299

출처 : JSC ≪Russian Grids≫

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5. 시장 진입의 전망 및 기회

현재 러시아 파워 그리드 시장(송전 설비의 건설 및 개혁)은 러시아 회사들이 주도하고 있다. 일부 입찰 에서 외국 회사들의 참여가 제안되기도 하지만, 다른 입찰에서는 계약을 수행하는 회사는 러시아 연방의 영역에 등록되어 있어야 한다는 직접적인 규정이 존재한다. 그 외에도, 계약자를 선택함에 있어서 주문자들은 FGC UES/IDGC의 사업자들과 긍정적인 업무경험 을 보유한 회사들을 선호하고 있으며, 제안되는 장비 및 물건들은 인증의 통과를 포함하여 FGC UES의 모든 요건을 충족시켜야 한다. 따라서 외국 회사들(특히 한국 회사들)이 시장에 진입하기 위한 전망은 그 리 호의적이라고 보기 어렵다. 또한 계약자에 대해 어려운 요건들이 부과됨에 주목하여야 한다. 이들 중 다음과 같은 사항을 지적할 수 있다:

∙ 유사한 작업에 대한 최소한 3년 이상의 경험을 보유하고 최근 3년 동안 최소한 1회의 유사한 계약을 완수했을 것 ∙ 최근 3년간, 초기 계약 가격의 50% 이상의 금액으로 유사한 작업을 완수하였을 것 ∙ 계약에 따라 작업을 수행하게 해주기 위해 필요한 문서들을 확보하고 있을 것 ∙ 건설의 수행에 있어서 자본 구성의 안전성에 영향을 미치는 작업 유형에 대한 승인 인증서의 보유 ∙ 계약 가격이 50만 RUB을 초과하고(VAT 제외) 계약 기간이 3개월을 초과하는 경우, 계약에 의해 유 치된 기관은 ‘one-day firm’의 특성 보유 불가(서약서를 제출하여야 함) ∙ 산업, 환경 안전 및 노동 보호의 영역에서 회사 주문자의 주문에 따른 표준요건 충족

서류 및 인증서와 관련하여, 러시아 연방 이외의 장소에서 등록하는 경우에, 입찰 참가자는 입찰 문서에 규정된 모든 서류(또는 가능한 한 필요한 서류와 내용 면에서 유사한 서류)를 제출할 것이 요구됨을 유의 하여야 한다.

한국전기산업연구원 33 러시아 에너지시스템 시장 현황

제3부 러시아 스마트그리드 시장

1. 스마트그리드 : 일반 정보

가. 이점 및 개념모델

‘스마트그리드(SMART(Self Monitoring Analysis and Reporting Technology)’라는 용어는 전력시스템의 현 대화를 의미하며, 상호 연계요소들의 작동을 보호하고 자동적으로 최적화한다. 이러한 요소들은 집중화되고 또한 분산된 발전설비로부터 고전압 네트워크 및 배전시스템을 거쳐 산업체 사용자 및 빌딩자동화시스템, 에너지저장설비 및 최종 사용자의 온도 조절 장치, 전기자동차, 전기장치 및 다른 가전장비들로 전달된다. 스마트그리드의 이점은 다음과 같이 5가지로 분류할 수 있다.

∙ 전력의 신뢰도와 전력의 질 스마트 그리드는 디지털 정보, 자동제어 및 자동운전 시스템을 사용하여 정전의 위험으로부터 신뢰할 수 있는 전력공급설비를 보다 적은 회수와 짧은 시간에 공급하며, “보다 청정한” 전력 및 자체 복구 전력 시스템을 제공한다.

∙ 안전 및 사이버 보안 스마트그리드는 지속적인 모니터링을 통해 안전운전을 저해할 수 있는 불안전하거나 보안에 위배되는 상황을 탐지함으로써 높은 신뢰성을 담보할 수 있다. 높은 수준의 사이버 보안이 모든 시스템 동작에 내장 되며, 여기에는 물리적인 발전소 모니터링, 사이버 보안 및 모든 사용자 및 고객의 프라이버시 보호가 포 함된다.

∙ 에너지 효율 스마트그리드는 보다 효과적으로 전체 에너지 사용의 감소, 피크 수요 및 에너지 손실의 감소를 가능하 게 하며, 최종 사용자가 전력시스템 운영에서 새로운 시설을 설치하지 않고 사용을 절감할 수 있는 능력을 제공해 준다.

∙ 환경 보존 스마트그리드는 ‘녹색(green)’이다. 이는 비효율적 에너지원에 의한 발전을 줄임으로써 온실가스(greenhouse gas: GHG) 및 기타 오염물질을 감축하는데 도움이 되며, 재생가능에너지를 지원하고 가솔린을 연료로 하는 자동차를 전기자동차로 바꿀 수 있게 해준다.

34 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

∙ 직접적인 재정적 이익 스마트그리드는 가동비용을 감축하거나 제거함으로써 직접적인 경제적 이득을 가져 온다. 고객들은 가 격에 대한 선택권을 가질 수 있고 에너지 정보에 쉽게 접근할 수 있으며, 기업가들은 발전 ․ 분배 ․ 저장 및 에너지의 조정에 대한 기술 도입을 가속화할 수 있다.

그리고 스마트그리드부터 얻을 수 있는 이점은 이해당사자들에 따라 다음과 같이 세 가지로 분류될 수 있다:

∙ 소비자 소비자들은 에너지를 실시간으로 공급받음으로써 에너지 소비패턴을 조화롭게 운영할 수 있다. 가변가 격을 통해 소비자가 스마트그리드를 지원하는 기반설비를 설치하도록 인센티브가 제공될 것이며, 스마트 그리드 정보 기반 설비는 추가적인 서비스를 지원할 수 있다.

∙ 설 비 설비들을 통해 어려운 응급 상황에서 보다 신뢰성 있는 에너지가 공급될 수 있으며, 동시에 효율성과 정보를 통해 비용을 보다 효율적으로 운영할 수 있다.

∙ 정부 서비스 비즈니스 및 정전에 민감한 국민에게 신뢰도 높은 전력을 공급하여 사회 또한 이득을 얻을 수 있다. 재생가능에너지, 증가된 효율 및 PHEV(전기 하이브리드 차량, Plug‐In Hybrid Vehicle) 지원을 통해 탄소 사용량을 포함한 환경비용의 감축을 지원한다.

다른 이해 당사자들도 스마트그리드로부터 이익을 얻을 수 있다. 규제 담당자들은 스마트그리드 정보의 투명성과 감시기능으로부터 도움을 받을 수 있다. 판매자들과 통합 운영자들은 스마트그리드 구성 요소와 시스템을 둘러싼 비즈니스 및 제품의 기회로부터 이익을 얻을 수 있다. 스마트그리드의 개념 모델의 최고 수준은 <그림 16>에 나타나 있다.

출처 : Electric Power Research Institute <그림 16> 스마트그리드 개념 모델 – 최고 수준

한국전기산업연구원 35 러시아 에너지시스템 시장 현황

스마트그리드 시장은 에너지시스템 요소들의 다양한 조합으로 이해될 수 있다. 다음 그림은 클린테크 (Cleantech)가 정의한 스마트그리드 시장(붉은 색 하이라이트 영역)의 경계를 보여 준다5.

출처 : Cleantech Group <그림 17> 스마트그리드 시장의 경계

다음 도메인과 이에 대한 주요 참여자들이 그림에 나타나 있다:

1) 대규모발전－전송－분배

∙ 대규모 발전 영역 – 발전 부문; 이 영역의 회사들은 추후 송전을 위한 전력을 저장할 수 있다. ∙ 송전 영역 – 확장된 거리에서의 송전 부문(백본 그리드); 회사들이 파워그리드를 소유하며 또한 전력 을 저장하고 생산할 수 있다. ∙ 배전 영역 – 배전망; 회사들이 고객들 사이에서 배전을 운영하며, 전력을 저장할 수도 있다.

‘대규모발전－송전－배전’ 시스템 내에서 스마트그리드의 공통된 기능 및 요소들은 다음과 같다.

∙ 제어 – 전력의 흐름을 관리하기 위해 회사에 허가를 부여하는 SH. 두 인접한 전력시스템들 사이의 전력흐름을 제어하기 위한 변전소 내 각 조절기의 사용을 예로 들 수 있다. ∙ 측정 – 전력 흐름의 파라미터에 대한 측정을 제공하는 SH에 의해 수행된다. ∙ 보호 – 단전, 전력부족 또는 장비의 손상을 가져올 수 있는 시스템 내의 오류 및 기타 사건들에 빠르

5 클린테크(Cleantech) 그룹의 보고서 『2010년 미국 스마트그리드 판매자 생태계』

36 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

게 반응하는 SH의 집합. 지역적으로 또는 광역적으로 동작할 수 있다. ∙ 기록 – 재정, 엔지니어링, 운영 및 예측의 목적으로 다른 영역의 전력망에서 발생한 사항의 검토를 허용하는 SH에 의해 수행된다. ∙ 자산 운영 – SH가 함께 작업하여 언제 장비의 유지 ․ 보수가 필요한가를 결정하고, 장치의 기대수명을 계산하며, 그 가동이력과 유지 ․ 보수 내역을 기록하여 향후에 운영 및 엔지니어링에 관련된 결정을 내리기 위해 검토할 수 있도록 한다. ∙ 안정화 및 최적화 – 시스템 전체에서 적절한 허용치로 네트워크가 동작하는 것을 보장하는 SH에 의 해 수행된다. 이들은 신뢰성 있고 적절한 동작(안정성) 또는 보다 효율적인 동작(최적화)을 보장하는 제어에 관한 결정을 내리기 위해 정보를 수집할 수 있다. 측정 및 제어는 전력망 운영자가 전체 전력 네트워크에 걸쳐 에너지 흐름을 안정화할 수 있게 해주거나 송전 경로에서의 부하를 안전하게 증가시 키도록 하는 피드백 루프를 형성한다.

2) 고객

∙ 고객 – 전력의 최종 사용자로서 역시 전력을 생산 ․ 저장 및 운용할 수 있다. 전통적으로 가정, 상업 및 산업 등 세 가지 유형의 고객이 고려된다.

3) 시장, 가동, 서비스 제공자

∙ 시장 – 시장; 전력의 구매와 판매에 관련된 회사들을 포함 ∙ 가동 – 송전의 운영; 회사운영자 ∙ 서비스 제공자 – 예를 들어, 전송 설비의 유지 보수 작업을 수행하는 서비스 회사들

스마트그리드 영역에 대한 설명으로부터 같은 회사가 여러 시장의 부문에서 동시에 활동할 수 있다는 점을 확인할 수 있다.

나. 에너지시스템의 구조적 측면에서 스마트그리드의 요소

클린테크의 정의에 의하면, 스마트그리드의 요소는 백본 그리드, 배전망 및 고객 수준 등 에너지 시스템 의 3단계에서 활용된다.

1) 백본 그리드

전력 송전 특성을 측정하고 안정화시키기 위해 설계된 백본 그리드 부문에서 스마트 그리드의 주요 요 소는 다음과 같다:

∙ 변전소 LAN ∙ 변전소 장비 ∙ 데이터 수집 장치

한국전기산업연구원 37 러시아 에너지시스템 시장 현황

∙ 변전소 제어기 ∙ 전기 저장

2) 배전망

배전망은 스마트그리드가 목적으로 하는 부문이다. 이 경우 스마트그리드 시장은 송전의 분배 시스템 및 배전망 운영을 위한 회사의 솔루션을 모두 포함한다. 배전망에서 스마트 그리드의 요소들은 다음과 같다.

∙ 송전 하부시스템 ∙ 현장영역 통신망(Field Area Network) ∙ 현장장비 ∙ 분산발전 ∙ 정보 교환을 위한 하부 시스템: ∙ 엔터프라이즈 버스(Enterprise Bus) ∙ 계량 데이터 운영 시스템(Meter Data Management System: MDMS) ∙ 배분 SCADA ∙ 수요반응 ∙ 배전관리시스템(Distribution Management System: DMS) ∙ 자산 운영

3) 고객

고객 부문에서 스마트그리드 솔루션은 다음의 시스템들을 결합한다.

∙ 계량기 ∙ 고객 장비 ∙ 에너지관리시스템(EMS)

다. 제조그룹의 관점에서 본 스마트그리드 요소들

Zpryme이 제조그룹의 관점에서 정의한 바에 따르면, 스마트그리드는 다음 네 개의 주요 구성요소를 포함하고 있다.

∙ 스마트 센서 및 장비 ∙ IT 하드웨어 및 소프트웨어 ∙ 스마트그리드 통합 통신 ∙ 스마트 계량 하드웨어 및 소프트웨어

38 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

라. 러시아의 스마트그리드

러시아에서 스마트그리드는 ‘능동-적응형 전력망(active-adaptive grid: AAG)’ 개념과 관련되어 있으며, 이는 다음과 같은 특성으로 설명될 수 있다.

∙ 능동형 요소에 의한 전력망의 포화가 이루어지며, 이를 통해 전력망의 위상 파라미터의 변경이 가능 ∙ 다양한 에너지시스템 운영 모드에서의 전력망 평가를 위해 현재 운영 파라미터를 측정하는 다수의 센서 ∙ 전력망의 능동적 요소 및 소비자의 전기설비의 제어 수단과 아울러 데이터 획득 및 처리 시스템 (하드 웨어-소프트웨어 시스템) ∙ 위상 파라미터를 실시간 기반으로 변경하며 관련 에너지 설비와 상호 작용할 수 있게 하기 위해 필요 한 실행 기구와 메커니즘의 사용 가능성 ∙ 현 상황을 자동적으로 평가하고 전력망 가동을 예측하기 위한 수단 ∙ 운영 시스템 및 정보 교환의 고속 동작 속도

이러한 특성들을 고려할 때, 스마트그리드는 “원하는 시간에 필요한 양 만큼 전력생산원으로부터 수신 자에게 높은 신뢰도와 품질을 갖춘 전력을 제공하는 정보 분석 및 운영 시스템과 더불어 전력생산원으로 부터 소비자의 전기 장치로 연결된 SH들의 집합체”로 정의하는 것이 보다 명확할 것으로 판단된다. 스마트그리드에 대한 접근 방법의 차이는 다음과 같은 정의로 설명될 수 있다.

∙ 외국의 스마트 그리드 ‒ 전력의 생산, 분배, 저장 및 소비의 모든 참여자들이 디지털 형식으로 사용할 수 있는 상호 통신교환 구조의 구현 ∙ 러시아의 스마트 그리드 – 복합단지 현대화 및 고급 기술, 조화된 설계 솔루션에 기반한 전력 부문 모든 사업체의 국제적 수준의 혁신적 개발

능동-적응형 그리드에 따른 지능형 에너지시스템의 구조는 다음 그림에 나타나 있다.

출처 : CFGC UES의 발표 <그림 18> 능동-적응형 전력망에 의한 지능형 에너지시스템 구조

한국전기산업연구원 39 러시아 에너지시스템 시장 현황

2. 에너지 효율 분야의 프로젝트

이 부분에서는 러시아 연방대통령 산하 ‘현대화 및 기술개발 위원회’의 에너지 효율에 대한 작업그룹이 구현한 다음과 같은 프로젝트에 대해 논의하고자 한다.

∙ ‘계량, 절약 및 지급(Count, Save and Pay)’ 프로젝트 ∙ ‘뉴라이트(New light)’ 프로젝트 ∙ ‘에너지 효율 블록’ 프로젝트 ∙ ‘에너지 효율 사회적 부문’ 프로젝트.

본 프로젝트를 통해 해결하고자 하는 목표들은 다음의 <표 19>에 나타나 있다.

<표 19> 에너지 효율 분야에서 연방정부 프로젝트의 목표와 목적

목표 목표 요소 지표 개인, 상업 그리고 국가 부문에서의 에너지 비용 절감 20% 에너지 소비의 감축 비용의 최적화 활동 생태계 안전 배출과 화석에너지 자원의 소비 절감 온실가스 및 이산화질소 배출 절감 혁신적 전력 부문의 개발 RES 사용 가능성의 창출 연간 25bln TFOE 수준의 RES의 사용

가. ‘계량, 절약 및 지급(Count, Save and Pay)’ 프로젝트

이 프로젝트는 에너지원 계량기에 대한 표준개발 및 최고의 기술솔루션 제공을 목표로 한다. 그리고 인센티브의 제공을 통해 소비자가 계량기를 설치하도록 하는 메커니즘을 도입할 것으로 예측된다. 최초 단계에는 Perm Krai, Sverdlovsk, Chelyabinsk 등 3개의 지역(우랄 지역의 IDGC)에서 시범프로그 램이 실시된다. 그리고 열 계량기가 장착된 장비가 Perm, Izhevsk, Kirov, Kamensk-Uralski에 계획되어 있다.

나. ‘뉴라이트(New light)’ 프로젝트

이 프로젝트의 목적은 현존하는 국가의 내 ․ 외부 조명시스템을 현대화하고 최대 효율성을 성취하기 위 하여 LED 및 형광등의 사용을 계획하고 있다. 프로젝트의 지표 중 하나는 내부 조명을 위한 모든 수준에서의 지출 예산을 2009년 대비 50%까지 줄이 는 것으로, 외부 조명 지출에 대해서는 30%까지, 대중에 대한 지불은 60% 수준까지 줄이는 것이 포함되 어 있다. 프로그램을 도입한 측에 따르면, 이를 통해 전체 전력 생산 용량을 10%까지(2009년의 사용 수준 에 비교하여) 향상시키는 것이 가능하다고 한다. 이는 다시 온실가스 배출을 2009년 수준의 7%까지 감소 시키게 될 것이다.

40 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

이를 위하여 Gorno-Altaisk, Perm, 키로프Kirov 등이 시범지구로 선정되었다. 에너지 효율에 대한 작업 그룹에 따르면, 전체 에너지시스템 내에서 조명을 위한 전력 소비는 연간 약 1400억kWh에 해당한다(전체 전력 소비의 약14%). 따라서 프로그램이 성공적으로 시행된다면, 2020년까 지의 에너지 절약량은 연간 1480억~1630억 kWh에 이르고, 이로 인해 촉발된 발전량은 약 55~63GW 정 도의 규모가 될 것이다.

다. ‘에너지 효율 블록(Energy efficient block)’ 프로젝트

이 프로젝트의 목적은 에너지 효율을 달성하기 위해 대도시 지역에서 시장원리에 따라 적용할 수 있는 일반적인 기술적 ․ 재정적 솔루션을 마련하는 것이다. 이 프로젝트의 목적 및 목표의 지표는 다음과 같다.

∙ 가정 및 설비 서비스에 대한 가정 지출을 평균 15~25% 감축 ∙ 에너지원에 대한 도시 예산 지출을 15~25% 감축 ∙ 도시의 경제 부문에 의한 에너지원의 소비를 전체 수준의 25~30% 감축 ∙ 환경을 오염시키는 유해한 배출을 기본 수준에서 10~15% 감축

이를 위하여 다음 도시들에서 시범 프로젝트가 시행되었다.

∙ Tyumen 및 Apatity(Murmansk 지역) – 1 블록 이내 ∙ Kazan(타타르스탄 공화국) – 7블록 이내 ∙ Vorkuta(코미 공화국) – 9블록 이내

도시의 빠른 자금 회수를 위한 에너지 효율 대책에 중점을 두고 작업이 시작되었는데, 자본 구축 프로젝 트 장비 지출과 관련하여 Kazan의 사례를 살펴보면 다음과 같다.

∙ 빌딩 하나 당 자본 투자의 평균 금액: 거주 주택 – 925,300 RUB (9개의 에너지 효율화 대책); 사회 기반 설비 – 2,708,700 RUB (3개의 에너지 효율화 대책) ∙ 자금회수의 평균 기간(연간 11%의 비율로 조정됨): 거주 주택 ‒ 4.1년; 사회기반 설비 ‒ 1.8년 ∙ 성취 가능 수준의 에너지 절약: 거주 주택 ‒ 21.3%; 사회기반 설비 ‒ 21.0%.

라. ‘에너지 효율 사회적 부문’ 프로젝트

이 프로젝트는 사회기반 설비(학교 및 병원)의 에너지 효율을 증가시키는 데 목적을 두고 있다. 프로그 램 시행을 위한 목표 지표는 에너지원에 대한 통합 예산지출을 2009년 대비 15~20% 감축하고, 전력소비 를 동기 대비 20~30% 감축하는 것이다. 에너지 효율 분야에서의 전형적인 솔루션이 50% 이상의 학교와 병원에 분배되어야 한다.

한국전기산업연구원 41 러시아 에너지시스템 시장 현황

프로젝트가 시행되는 시범 지역은 Kaluga ․ Tver ․ Tyumen 지역, Khanty-Mansi AO, 타타르스탄 공화국, Perm, Krasnoyarsk, Altai 및 Khabarovsk Krai 등이 해당된다. 프로젝트의 조정자에는 교육과학부, 보건 및 사회개발부 등이 포함된다. 교육부를 통해 러시아의 10개 지역에서 27개의 시범현장이 확인되었으며, 이를 위해 6개 지역의 17개 시범 현장에 대해 보건부를 통해 기술 ․ 교육적 근거가 개발되었다. 에너지 구현에 대한 자금회수 기간은 효율화(열 및 전기) 대책을 통해 일부 개체의 경우 평균 5~10년에 이르는 것으로 추산되고 있다.

마. 지역, 도시 및 민간 프로젝트

이하에서는 지역적 수준에서 시행되는 일부 지능형 에너지시스템의 건설 프로젝트 또는 관련 요소에 대해 논의하고자 한다.

1) Bryansk 지역

2010년, Bryansk 지역의 JSC인 Bryanskaya Sbytovaya Kompania(BSK)(현 JSC는 Bryanskenergosbyt)는 에너지‐효율 프로젝트인 ‘스마트 하우스(Smart House)’ 프로젝트를 실시하였다. 시범 프로젝트의 단계에서 80개 아파트의 5층 건물을 감사하였으며, 이로부터 다음과 같은 에너지 효율 향상 대책이 발굴되었다.

∙ 형광등 에너지를 대신하는 모든 부분에서 CJSC인 ‘Gruppa Kremniy El’에 의한 절약 전등이 설치되었 다. 사전 계산에 따르면, 이러한 설비를 통한 에너지 절약비용은 절약용 전등의 경우 연간 75,000 RUB 규모이다. ∙ 모든 아파트와 공용 지역에 제어 및 에너지원 회계를 위한 자동화 시스템이 설치되었으며, 이를 통한 계량 결과는 즉시 BSK의 결재 센터로 전송되었다.

이 프로젝트의 비용은 전적으로 BSK가 부담하였는데, 백열등을 에너지 절약형 등으로 교체하기 위한 70,000 RUB가 포함하여 총 비용은 450,000 RUB에 달하였다.

2) Belgorod 지역

Belgorod에서는 ‘Belgorod–스마트 시티’ 프로젝트가 실시되었다. 프로젝트 하에서 JSC인 ‘중앙 IDGC’ 의 지사인 Belgorodenergo는 2010년에 39,200개의 다기능 계량기 ‘Neiron’과 3,500개의 에너지 절약이 가 능한 나트륨 등으로 이루어진 새로운 거리 조명 기구 및 외부 조명을 위한 274개의 제어 박스를 설치하기 로 하였다.

3) Moscow와 St. Petersburg 지역

Schneider Electric은 2006년 이래 러시아에서 스마트그리드 건설을 수행하고 있다. 이 기간 동안 Moscow 에 있는 약 100개의 전력공급기 설비를 단일 시스템 내에서 상호 연결하는 것(Moscow United Electric

42 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

Grid Company의 배전 네트워크)이 가장 큰 프로젝트가 되었다. 2009년, 회사는 St. Petersburg에서 스마트그리드 시범 프로젝트를 시작하였다. 이 프로젝트의 주요 목적 은 지역의 설비와 주민에 대해 지속적으로 전력공급기를 제공하고 에너지 효율을 향상시키는 것이다. 이 프로젝트는 PLC 기술 및 EZOIS사의 케이블 그리드인 ‘Lenenergo’와 결합하여 시행되었으며 다음과 같은 요소를 제공하였다.

∙ 배전망 통합 운영을 위한 SCADA 시스템 ∙ 데이터 채널(제2세대 PLC 기술에 기반한 케이블 선로를 통한 정보 전송을 포함) ∙ 생산 과정에서 중간 전압 셀 내에 직접 설치된 6~20 kV 장비의 운용과 제어를 위한 디지털 원격 통신 제어 장비군

4) Skolkovo 지역

2013년 초, FGC UES와 Skolkovo 재단은 Innograd에 능동-적응형 전력망을 건설하기 위한 계약에 서 명하였다. 이를 통해 다음과 같은 설비들이 Skolkovo에 건설될 예정이다.

∙ 에너지 공급 시스템을 지속적으로 모니터링하는 기능을 포함한 제어 센터 ∙ 500개 이상의 계량 지점에 대한 스마트 계량(Smartmetering) 시스템

에너지 시스템은 또한 지능형 조명의 하부 시스템, 전기자동차의 충전 및 태양광(650kV)에 기반한 발전 을 포함할 예정이다.

바. FGC UES 및 Russian Grids(IDGC 지주회사)의 프로그램

1) FGC UES의 혁신적 개발 프로그램(2011~2016년, 2020년까지의 전망에 기반)

이 프로그램의 목적은 러시아 스마트그리드 시스템의 기반으로서 능동-적응형 전력망을 건설하는 것이다. 프로그램의 핵심 목표는 다음과 같다.

∙ 전력 운영의 신뢰도, 효율 및 안전성을 개선 ∙ 국가 전력 부문을 높은 수준으로 현대화하고 전력 운영에서의 에너지 효율을 개선 ∙ 기반 설비의 최적화, 전력 부문의 다양화 및 서비스 질의 향상 ∙ 능동-적응형 전력망에 기반한 스마트그리드 시스템으로의 전환

프로그램에 대한 예산 관련 사항은 <표 20>에 나타난 것과 같다.

한국전기산업연구원 43 러시아 에너지시스템 시장 현황

<표 20> JSC ≪FGC UES≫의 혁신 개발 프로그램의 예산, bln RUB

2011 2012* 2013* 2014* 2015* 2016* R&D 355577.22 Complex pilot projects of AAG 0.5 3.5 3.5 3.5 3.5 3.5 creation Other innovative measures 1.19 2 0.81 0.57 0.47 0.19 Share of raising funds from - 5 7 10 12 12 external sources

출처 : JSC ≪FGC UES≫의 혁신적 개발 프로그램 * 이러한 조치들이 FGC UES 의 투자 프로그램 및 FGC UES의 관세의 회계를 위한 투자 자본의 기본에 포함된다는 조건 하에서 시행. ** 상용화, 새로운 서비스를 창출하는 마케팅, 직원 훈련, 비즈니스 과정의 개선.

그리고 실제 자금의 조달 규모는 다음과 같다.

∙ 2011 ‒ R&D 19억 RUB 포함 총 25억 3,000만 RUB ‐ ∙ 2012 ‒ R&D 29억 RUB 포함 총 38억 1,000만 RUB ‐

한편, 프로젝트의 구체적인 내용은 다음과 같다.

∙ 다음과 같은 유형의 혁신 장비들을 시험 가동 ‒ SS Vyborgskaya(2011, 북서부 지역)에서의 STATCOM(전압 변환기에 기반한 정적 반응 전력 변환기: static reacting power converter based on voltage converter) ‒ ASC(비동기 정전 보상기: asynchronized static compensator) SS 500kV Beskudnikovo(2012, 모스크바) ‒ CSR 500kV(제어되는 분류기 반응기)(2009년 이래, 시베리아, 서 시베리아, 볼가) ‒ CSRT 110kV(사이리스터 밸브가 장착된 제어되는 분류기 반응기)(2010년 이래, 시베리아) ‒ OL 220kV Tsimlyanskaya HPP에서의 MCIA(다중 챔버 절연기 차단기: multi-chamber insulator arrester) – Shakhty 30(2011, 로스토프(Rostov) 지역) ‒ 결합 스위치 차단기 SS Dmitrov(2011, 모스크바 지역) 및 기타

∙ 발전적 기술들 ‒ 디지털 변전소 폴리곤 건설(2014) 및 FGC UES의 가동 전력 설비로의 도입 이전에 새로운 혁신적 기술의 개발(1~2단계로 수행) ‒ SS Kaskadnaya에 설치를 위해 특수 반응기 및 폭발성 스위치에 기반한 전류 제한기의 시제품 개발 (2012) ‒ HTS(고온 초전도체: high‐temperature superconducting) 케이블 선로의 설계 AC(2014) 및 DC(2016) 및 헬륨 운영 시스템 모스크바 및 상 페테스부르그의 SS에 시범 가동을 위해 설치 목적

44 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

∙ 솔루션의 통합 테스트 – 동부 지역 UPS 영역 내에 시범 에너지 클러스터. ‒ 혁신적 해결책의 통합 테스트를 위해 동부 지역 UPS 영역 내에 전력 클러스터 ‘Elgaugol’ 건설(2014)

∙ 계획된 대규모 시범적 혁신 프로젝트 ‒ 진공 기술에 개발한 전류 제한기 110kV, 버스트(burst) 타입 220kV SS Kaskadnaya(2014, 모스크바) ‒ 송전설비에서 HTS 케이블 선로 AC 및 DС 구현(2015, 모스크바; 2016, 상 페테스부르그) ‒ 디지털 SS 220kV Nadezda의 건설(2015 ․ 2016, 볼가) ‒ NTC FGC UES에 기반한 디지털 변전소의 폴리곤의 추가 개발(2012~2014) 및 기타

2) Russian Grids(IDGC 지주회사)의 혁신적 개발 프로그램(2011~2016년, 2020년까지의 전망에 기반)

이 프로그램의 목적은 IDGC 지주회사 내에서 혁신적 사이클 구현을 위한 효율적인 조직과 경제적인 메카니즘을 형성하는 것이며, 이를 통해 배전 부문에서 첨단 기술장비와 고급 기술 기반을 구축 ․ 추진하기 위한 긍정적인 조건을 형성할 수 있다. 프로그램에 따른 혁신적 개발의 주요 부문은 다음에 열거된 것과 같다.

∙ 첨단 기술 장비 및 고급 기술의 도입 ∙ 비즈니스 과정과 혁신 과정 운영 시스템의 개선 ∙ 에너지 절약 및 에너지 효율의 향상 ∙ 환경 친화적 요소의 증가 ∙ 제어 시스템 품질의 개선 ∙ 현존 시장 및 새로운 시장에서 추진될 혁신적 서비스 및 제품의 개발 및 구현 ∙ 고등 교육 기관 및 과학 기관들과의 협력 ∙ 혁신적인 중소기업과의 협력

그리고 프로그램에 따른 과학과 기술 개발의 주요 방향은 다음과 같다.

∙ 전력시스템 문제(ACS, AAG, IT, 스마트 그리드, SCADA) ∙ SS의 주 장비 ∙ SS의 이차 장비 ∙ 고전압 오버헤드 선로 및 케이블 선로 ∙ 배전망 0.4~20 kV ∙ 정규적 ․ 기술적 문서의 제작

프로그램에 대한 자금 조달6은 2011~2016년 기간 동안 220억 RUB의 R&D 자금을 포함하여 총 1120억 RUB에 이를 것으로 예상되며, 구체적인 자금조달 항목은 다음과 같다.

6 이 예상은 2012년도 R&D 재무 항목에 기반한 것이다.

한국전기산업연구원 45 러시아 에너지시스템 시장 현황

∙ 전력시스템 문제(ACS, AAG, IT, 스마트그리드, SCADA) ‒ ~95억 RUB ∙ SS의 주 장비 ‒ 25억 RUB ∙ SS의 이차 장비 ‒ ~20억 RUB ∙ 고전압 가공선로 및 케이블 선로 ‒ ~30억 RUB ∙ 배전망 0.4~20kV ‒ ~20억 RUB ∙ 정규적 ․ 기술적 문서의 제작 ‒ ․ 20억 RUB

실제 자금 조달 액수는 다음과 같다.

∙ 2011 ‒ R&D 분야 3억 2,000만 RUB를 포함한 123억 RUB ∙ 2012 ‒ R&D 분야 7억 3,000만 RUB를 포함한 299억 RUB7

IDGC 지주회사의 유일한 관리권한을 2012년 7월 FGC UES에 이전함에 따라 활동과 조치들의 중첩을 피하기 위해 양 회사의 혁신적 개발 프로그램을 통합하여 공통된 R&D 계획을 수립하기로 결정되었다.

3) 에너지 절약 및 효율 향상 프로그램

프로그램의 주된 방향과 자금 조달은 다음과 같다.

① FGC UES(2012년 기준, 43억 RUB 규모 자금조달) ∙ UNEG에서 기술적이 전력 소비 감소 ∙ FGC UES의 설비에 모든 종류의 에너지 및 에너지 제공자에 대해 계량장비를 장착 ∙ FGC UES 빌딩 내의 전력 및 열 전력 소비 감축 ∙ 자동차 연료 소비 감축.

② Russian Grids(IDGC 지주회사) ∙ 생산 및 비즈니스에서 소요되는 단위 당 에너지 자원 소비의 감축 ∙ 전기 손실의 감소 ∙ 소매 시장에서의 전기 계량 시스템의 장기적 개발 프로그램의 실시

에너지 절약 프로그램은 자본 투자 및 개선 프로그램에 따른 자금에서 지원받고 있다. IDGC 자회사들 의 자본투자 프로그램에 따라, 2012년에 에너지 보존 및 효율 개선을 목표로 소비된 금액은 364억 RUB(VAT 제외) 규모에 해당한다. 이 중 에너지 보존 및 효율 개선을 위해 직접적으로 지출된 금액은 총 83억 RUB(VAT 제외) 규모이다.

7 예비 데이터

46 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

3. 러시아 스마트그리드의 잠재력

세계적인 추세로 보아, 특히 미국에서, 시장의 성장과 활성화를 위한 첫 번째 요소 중 하나가 스마트계 량기였다면, 러시아에서의 스마트그리드의 구현은 백본 및 배전 전력망의 단계에서 시작되었다. 이러한 점은 현행 계량기 설치 프로그램(‘계량, 절약 및 지급(Count, Save and Pay)’ 프로젝트)이 계량기와 과금 시스템 사이에서 능동적 정보 교환을 제공하지 않는다는 사실로 설명할 수 있다. 이러한 계량기들은 정보 전송 채널의 부재와 자동화된 계량 입력 기능의 결여는 공식적으로 스마트그리드에 속하지 않는다는 사실 을 의미한다.8

가. 백본 및 배전 전력망 단계

백본 및 배전 전력망에서 SS의 현대화 잠재력(교체를 요하는 장비)은 약 150,000개에 달하며, PTL의 약 140,000km에 이른다. 백본 및 배전 전력망 수준에서 스마트그리드의 기회에 대한 추정은 FGC UES 및 Russian Grids의 혁신적 개발 프로그램에 대한 투자의 규모를 기반으로 수행되었다. 2013~2016년도의 투자총액은 다음 <표 21>에 나타나 있다.

<표 21> FGC UES 및 Russian Grids의 혁신 개발 프로그램 투자 총액(2013-2016) (단위 : bln RUB) 전체 R&D 포함 FGC UES 49.19 27.42 Russian Grids (IDGC Holding) 69.80 20.95

총액 118.99 48.37

출처 : FGC UES 및 Russian Grids의 데이터

나. 최종 소비자 단계

스마트그리드 실현의 측면에서 가장 현저한 전기계량기 및 자동화빌딩 제어시스템(automated building control system: ABCS) 등 2개의 시장 부문을 검토해 보기로 한다.

1) 전기계량기(meter) 시장

2012년 러시아의 전기 계량기 시장의 규모는 약 870만 개에 달하였다. 새로운 기술의 도입과 스마트그 리드 실현의 맥락에서 주요한 시장의 주요 트렌드는 다음과 같다.

∙ 2010년에 판매된 전기계량기의 10개 중 9개는 디지털 방식이었으며, 오직 1개만이 유도형에 해당. 반면 2000년에는 이 비율이 각각 3:7이었음

8 프로그램의 정확한 파리미터는 공개된 정보 소스에 인용되지 않았다. 일부 경우에 이는 현금 결제 센터로 입력되는 전송 계량기의 빌딩 시스템을 언급하고 있다.

한국전기산업연구원 47 러시아 에너지시스템 시장 현황

∙ 시장 선도적 업체들의 제품 구색의 확장 및 다중 관세 회계 시스템 출력의 증가 ∙ 전기 계량기의 품질 특성에 대해 까다로워지는 고객 요구 ∙ 러시아에서 가정용 전기 계량기의 가격은 600 내지 5,200 RUB이며, 원칙적으로 스마트그리드가 널리 보급된 미국의 계량 시스템의 가격과 같은 수준임

러시아의 전기계량기 시장은 순조롭게 성장하고 있으나 포화 상태에 다다르고 있는 상황이다. 이 분야 의 선두 제조사는 소비자가 요구하는 제품의 사양을 갖추기 위해 끊임없이 분투하고 있으며, 가격적 요소 가 정책결정 과정에서 결정적인 요소는 아니다. 이러한 사실은 정부가 현금 결제센터의 현대화에 관심이 있는 경우에는 스마트그리드 시스템의 개발을 위한 우호적인 토양이 조성될 수 있음을 의미한다.

2) ABCS 시장

스마트그리드 시장의 부문은 가정의 에너지 소비 및 빌딩 수준의 에너지 소비 관리와 연관되어 있으며, ABCS 시장과 중첩되고 있다. 일반적으로 ABCS의 개념은 4개의 기본적 요소인 구조, 시스템, 서비스 및 관리의 각각 또는 상호 관계의 최적화를 통해 생산적이고 효율적으로 사용하는 것을 의미한다. ‘지능형’ 빌딩의 가장 일반적인 요소들은 다음과 같다.

∙ 조명 관리 ∙ 전기 추진 장치의 제어 ∙ 기후 조절 ∙ 배기 시스템의 관리 ∙ 다중 실내 시스템 ∙ 비디오 감시시스템 ∙ 보안 및 파일 경보시스템 ∙ 접근 관리 시스템 ∙ 관리 부하 및 비상 조건

그리고 ABCS 시장은 다음과 같은 두 개의 주요 그룹을 포함한다.

∙ ‘스마트 홈/하우스’ 시스템 – 개별적 장치들 또는 민간 주택의 자동화 ∙ ‘지능형 빌딩’ 시스템 – 대형 주거 빌딩(아파트 빌딩)뿐만 아니라 비거주 빌딩의 자동화 지원 시스템

2012년 러시아 ABCS 시장의 규모는 약 270억 RUB에 해당하며, 여기에는 ‘지능형 빌딩’ 부문 230 RUB, ‘스마트 홈/하우스’ 부문 40억 RUB가 포함된다. 러시아 ABCS 시장에서의 주요 트렌드는 다음과 같다.

∙ ABCS 구현에서의 에너지 효율의 중요성 증대 ∙ 에너지에 대한 감시가 지능형 시스템의 개발에서 중요 포인트로 등장

48 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

∙ 다양한 판매자로부터의 호환성 있는 하드웨어 및 소프트웨어 솔루션뿐만 아니라 새로운 회사들에 대 한 시장 진입 장벽을 감소시키는 것을 제공하기 위한 개방형 프로토콜로의 전환 ∙ 빌딩 설계 단계에서 서비스 회사에 대한 고객의 요구를 반영하는 민간 참여의 확대.

러시아에서 에너지 소비 관리 시스템은 지능형 빌딩의 많은 프로젝트에 포함되었다. 이러한 시스템의 확장이 극히 미약한 수준이지만, 지속적으로 증가하는 추세에 있는 것은 분명하다. 연방정부 차원의 에너 지 효율 문제에 대한 관심의 증대로, 이 분야에서의 해결책은 모든 ‘스마트 하우스’ 프로젝트에서 기본적이 고 통합된 요소가 될 것으로 기대된다.

4. 잠재적 시장 참여자들

러시아에서 가장 가능성이 높은 스마트그리드 시장 참여자들은 다음과 같은 회사들 중에 등장할 것으로 예상된다.

① 백본 및 배전 전력망 단계 ∙ Schneider Electric이나 Cisco와 같이 자동화 시장에서 영업 중인 외국 기업들 ∙ FGC UES 및 Russian Grids의 주문에 따라 백본 및 배전 설비의 건축 및 재건축 서비스(엔지니어링 서비스 포함)를 제공하는 회사들(보다 자세한 정보는, 송전 설비의 건축 및 재건축 참조).

② 최종 소비자 단계 전기 계량기 제조사로서 러시아 제조사들이 시장을 지배하고 있다. 주요 회사들은 다음과 같다. ∙ 전자 제품 공장들. Energomera, Stavropol Krai (www.energomera.ru) ∙ Incotex (모스크바, www.incotexcom.ru) ∙ 모스크바 전기 계량기 공장(Moscow factory of electric meters) (MZEP, 모스크바, www.mzep.ru); ∙ M.V. Frunze의 이름을 따서 명명된 Nizhny Novgorod Research and Production Association(Nizhny Novgorod 지역, www.nzif.ru) ∙ 레닌그라드 전기역학 공장(Leningrad electromechanical factory) (LEMZ, 상 페테스부르크, www.lemz.su); ∙ Ryazan주 장비제조 기업 (GRPZ, Ryazan 지역, www.grpz.ru) ∙ ‘지능형 빌딩’ 시스템의 기업. Honeywell, Siemens, Sauter, Elka, Gira, York, TAC, Johnsons Control, 내셔널 인스트루먼트(National Instruments) ∙ ‘스마트 홈/하우스’ 시스템 제조사들: ABB, Berker, Elka Elektronik, Evika, Gira, Jung, Legrand, Schneider Electric, AMX, Beckhoff, Crestron, Luxtron ∙ ‘지능형 빌딩’ 시스템 통합 사업자들. 상용 ‘지능형 빌딩’ 부문에서 활동하는 가장 잘 알려진 러시아 기업은 다음과 같음 ‒ ICS 그룹 (모스크바, www.icsgroup.ru) ‒ CROC (모스크바, www.croc.ru)

한국전기산업연구원 49 러시아 에너지시스템 시장 현황

‒ Armo 그룹 (모스크바, www.armo‐group.ru) ‒ Optima Integration (모스크바, www.integration.optima.ru)

5. 스마트그리드 시장 발전 전망

지능형 에너지 시스템 관련 러시아 시장은 예측하기 매우 복잡한 상황이다. 러시아에서는 스마트그리드 에서 사용되는 장비들과 중첩되는 다양한 요소들이 이미 상당한 정도로 광범위하게 보급되어 있다. 보급 정도가 낮은 부문에서는 백본 및 배전 전력망을 위한 네트워크 인터페이스를 가지는 복잡한 장비들에 적 용되며, 보급 정도가 높은 부문에서는 PTL, SS 및 기업 ․ 민간소비자 수준에서의 전기계량 장비 및 간단한 전기자동화 장비에 적용된다. 그러나 이들 대부분은 디지털 통신시스템들을 제공하지 않으며, 피드백 제공 이 불가능하기 때문에 관리 및 모니터링 기능을 제공하지 않는다. 여러 가지 측면에서 러시아의 지능형 에너지 시스템에 대한 전망은 FGC UES 및 Russian Grids의 투자 프로그램에 따라 달라질 것이다. 투자 규모가 글로벌 프로젝트로서는 크지 않은 것이 사실이지만, 이는 이후 본 사업 체제에서의 풍부한 응용과 수립을 위한 시범 프로젝트의 실현을 위해서는 충분하다. 주목할 만한 다른 성장 부문은 에너지를 집중적으로 사용하는 산업계의 전력공급설비의 자동화와 신설 빌딩의 운영을 위한 지능형 시스템 설계 분야이다. 민간 사용자에 대한 계량 시스템의 설치 부문은, 때로 는 전력 공급자 및 과금 서비스에 있어 피드백의 부족으로 인해, 적극적으로 개발되지 않을 것이며, 이는 주로 호화부동산 현장에서의 프로젝트에 기인한다. 러시아 내 스마트그리드 사업을 수행하는 외국 회사들에 의해 시장 개발을 위한 무조건 적인 지원이 이루어질 것이다. 시장 개발에 있어서 주된 장애는 전력망 설계(주요 현장 설계의 응용)의 전통, 낮은 에너 지 비용 및 RES에 기반한 낮은 생산 수준이라 할 수 있다. 따라서 러시아에서 지능형 에너지 시스템을 구현하려는 시도는 물질적 ․ 심리적인 요소에 직면하게 된 다. 이러한 높은 장벽을 극복하기 위해서는 FGC UES 및 Russian Grids의 활동을 촉진시킴과 동시에 직 접적인 정부의 정책이 뒷받침 되어야 한다. 또한 러시아 UES 배전망의 백본 및 주 장치 부분이 정부의 감시를 받고 있기 때문에(러시아 연방이 FGC UES 지분의 70% 이상, 러시아 그리드 지분의 40% 이상을 소유하고 있음), 이들 설비들에서 스마트 그리드를 구현하기 위해서는 당국의 주도적인 노력이 수반되어야 한다.

6. 시장 진입의 전망과 기회

가. 백본 및 배전 전력망 단계

외국 기업들(특히 한국기업들)이 백본 및 배전 전력망 단계에서 시장에 진입하기 위한 전망과 기회를 평 가해 보기 위해, FGC UES 설비를 위해 구입된 전기설비의 국내 및 수입 제품의 비율을 살펴보기로 한다. 현재 FGC UES 설비를 위해 구매하는 대부분의 주 장비 및 이차 전기장비가 수입되고 있다. 수입에

50 Russian Energy Systems Market Research 제3부 러시아 스마트그리드 시장

가장 크게 의존하는 부분은 다음과 같다.

① 주 전기장비 ∙ 전력 전송 장비 ∙ 스위치 ∙ 전류 변환기 ∙ 가스 절연 금속‐접착 장비 ∙ 케이블 330~500kV

② 이차 전기장비: ∙ 산업 제어 시스템(industrial control system: ICS) ∙ 통신 장비

FGC UES의 혁신 개발 프로그램에 따르면, 국내산 전기장비의 구매비율이 증가할 전망이나, 다음 분야 에 대해서는 수입품에 대한 의존이 계속될 것이다.

① 주 전기장비 ∙ 가스 절연 금속‐접착 장비; ∙ 케이블; ∙ 스위치 330~500kV

② 이차 전기장비 ∙ 통신 장비

보다 상세한 정보는 다음의 <그림 19> 및 <그림 20>을 참고한다.

출처: FGC UES의 발표 <그림 19> FGC UES 설비를 위해 구매된 주요 전기장비의 국내 및 수입 제품 비율

한국전기산업연구원 51 러시아 에너지시스템 시장 현황

출처: FGC UES의 발표

<그림 20> FGC UES 설비를 위해 구매된 2차 전기장비의 국내 및 수입 제품 비율

따라서 외국 기업들(특히 한국기업들)이 특정 시장 부문에 진입하는 것은 가능하다. 그러나, 전력망의 경우와 마찬가지로, 제공되는 장비들은 FGC UES의 인증을 받아야 한다는 사실을 고려할 필요가 있다. 또한 다른 긍정적 요소로서, FGC UES는 이미 일본 에너지 회사들(Toshiba Corp., Mitsubishi Electric Corp., Hitachi Ltd., J‐Power 시스템 등)과 협력 관계에 있다는 사실에 주목할 필요가 있다. 2010~2011년 도에 FGC UES는 이들 회사들과 정기적인 회의와 기술 워크샵을 가졌다. 회의의 안건은 특히 분산형 발 전 운영(외딴 지역의 지능형 그리드, 가상 발전소)과 같은 혁신의 부문을 포함하였다.

나. 최종 사용자 단계

최종 사용자의 수준에서 외국 회사들(특히 한국 회사들)이 진입하기에 가장 유망한 부문은 ABCS 시장 이다.

52 Russian Energy Systems Market Research 제4부 전기에너지 시스템 분야에서의 입찰

제4부 전기에너지 시스템 분야에서의 입찰

2013년 12월, 송전 설비의 건설 및 재건설 분야에서 11회의 입찰이 발표되었다. 총 계약 가액은 22억 2,740만 RUB을 초과하였으며, 다음 사항이 포함되었다.

∙ OL 330kV 접근 방식에 의한 SS 330kV Kislovodsk (Stavropol Krai) – 3억 8, 840만 RUB ∙ Koloyar(Saratov 지역)에서의 0.4kV OL의 재건설 – 약 1,100만 RUB ∙ SS 110kV Kartaly‐rayonnaya(정전 뱅크 교체, 변환기 차단 장치, 전압 변환기 110kV) (Chelyabinsk 지역) – 5,650만 RUB ∙ SS 220kV Skovorodino(Amur 지역)에서의 OL Tynda‐Skovorodino 방식 – 3억 3,800만 RUB ∙ SS 220kV Zuravli(Tambovka, Amur 지역)와 함께 OL 220kV Blagoveschenskaya‐Zuravli) (Tambovka‐ Varvarovka) – 13억 2,880만 RUB ∙ 탭 №6 OL 10kV의 폴 №14로부터의 OL 10kV‐6,320m 가공전선 건설(Bolnitsa) SS 110/35/10kV (Sovetskaya)) (Kalmykia 공화국) – 990만 RUB ∙ SWYD 셀 220kV (SS 220/110/10kV (GPP‐5))의 건설 (Sakha) (Yakutia 공화국) – 4650만 RUB ∙ SS 110/10kV ‘Novy Gorod’의 건설 (Saratov 지역) – 1,380만 RUB ∙ OL 330kV Grozny‐Chiryut (체첸 공화국) – 1,760만 RUB ∙ OL 500kV Rostov NPP – Budyonovsk (Stavropol Krai) – 1,040만 RUB ∙ Khostinskogo RPG(Regional Power Grid) (Krasnodar Krai)에서 10kV OL의 재건설 – 650만 RUB.

보다 상세한 정보는 [부록 3]을 참조하고, [부록 4]에서 2014년에 대한 FGC UES의 조달 계획이 제시 된다.

한국전기산업연구원 53 러시아 에너지시스템 시장 현황

요약

1. 러시아 에너지 시스템 시장

러시아 에너지 시스템 시장의 근간은 러시아의 UES이며, 이 시스템은 생산 및 기타 전력설비 자산의 복합체로서 중앙의 운영 ․ 관리 하에 발전과 송전이 단일과정으로 연계된다. 러시아 UES는 69개의 전력시스템을 포함하는데, 이들은 병렬로 작동하는 7개의 통합전력시스템 (Unified Power System: UPS)의 일부로 작용하며, 이들 각각은 일반적인 처리 ․ 운영의 동작 기능을 가지는 모드로 통합된 다수 전력시스템의 복합체이다. 러시아 UES의 주요 부분은 통합국립전력망(러시아 UNEG(Unified Electric Grid))이며, 220kV 이상의 백본 송전설비를 포함한다. 러시아 UNEG의 운영은 FGC UES가 그 지사들(MES)을 통해 수행한다. 2013년 1월 11일 현재 발전용량은 225,568.85MW 규모이며, 이는 TPP 153,675.91MW (68.1%), HPP 46,626.94MW(20.7%) 및 NPP 25,266.0MW(11.2%)를 포함하고 있다. 2012년 러시아 UES에서의 실제 전력소비는 1조 164억 9,790만 kWh에 해당하는데, 이는 2011년에 비 해 1.6% 높아진 수치이다. 2012년도 주요 시장참여자의 총 자본투자는 5,637억 RUB이었으며, 여기에는 도매 전력 생산 52.8%, 국토 전력생산 13.0%, 송전 34.2%가 포함된다. ‘2013~2019년 러시아 UES 개발을 위한 체계 및 프로그램’에 따르면, 러시아 UES에서의 전력소비는 2012년의 1조 165억kWh에서 2019년에는 1조 1,510억 200만kWh로 증가할 전망이다. 2014~2019년 기간 의 러시아 UES 발전소 중 새로운 생산능력을 가지는 설비의 시운전이 26,180.4MW의 용량으로 계획되어 있으며, 여기에는 NPP 11,267.6MW, HPP 688.5MW, PSPP 350.0MW, TPP 13,862.3MW 및 RES 12MW 가 포함된다. ‘2030년까지의 전력 부문 개체들의 할당을 위한 일반적 체계’에 따르면, 전력소비는 2030년에 1조 5,530 억~1조 8,600억kWh 규모로 증가할 전망이다.

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2. 러시아 전력망 시장

2012년, 러시아 UNEG에 포함된 PTL의 총 길이는 131,600km에 이르렀으며, SS의 개수는 891개로서 총 변환용량은 334,800MVA를 초과하였다. PTL 220kV 및 500kV가 전체 길이에서 최대 부분을 차지한다(각각 58.9% 및 27.8%). SS 220kV는 총 변환기 용량의 44.4%에 해당하며, 500kV는 36.0%를 차지하고 있다. UNEG의 송전설비 마모율은 평균적으로 41% 수준이며, 특히 SS 장비의 마모율은 65%, PTL은 36%, 빌딩은 23%이다. 25년 넘게 사용한 마모 송전설비 부분은 SS가 47%(35년 초과 사용 17%), PTL 67%(40 년 초과 사용 26%)이다. 2012년 말 현재, 35kV 이상의 가공 송전선로의 총 길이는 417,700 km에 해당하며, 0.4~20kV 선로는 1,546,300km이고, 450,000개 SS의 용량은 403.6GVA를 초과한다. 0.4~20kV의 송전 설비가 주로 사용되고 있으며, PTL은 약 79%이고, EPS 또한 70%를 초과한다. 배전망은 IDGC 지주회사에 의해 운영되어 왔으며, 2013년 3월 이후에는 Russian Grids에 의해 운영 되고 있다. IDGC 지주회사의 고정자산 마모율은 평균적으로 69%이며, 30년을 초과하여 사용된 OL 0.4~110(220)kV의 비율은 57%이다. 러시아 파워 그리드 시장의 주요 시장 참여자는 다음과 같다.

∙ 송전설비 운영자로서 FGC UES 및 Russian Grids / IDGC 지주회사 ∙ FGC UES 및 Russian Grids / IDGC 지주회사의 주문에 따라 백본 및 배전 설비의 건설 및 재건설 서비스(엔지니어링 서비스 포함)를 제공하는 회사들

2012년 FGC UES의 자본투자 규모는 1,926억 8,400만 RUB 규모였으며, 여기에는 신규 건설 1,241억 300만 RUB, 기술적 장비 보강 및 개선 557억 9,600만 RUB이 포함되어 있다. 2012년, IDGC 지주회사의 투자기금의 규모는 1,364억 5,900만 RUB이다. 2012년, 자본투자의 영역은 다음과 같다.

∙ 기술적 업그레이드 및 설비 갱신 ‒ 749억 8,500만 RUB (52.2%) ∙ 신규 건설 ‒ 544억 9,700만 RUB (37.9%) ∙ 기타 ‒ 141억 9,000만 RUB (9.9%)

2013~2017년 기간의 FGC 투자프로그램의 총 재정 내역은 7,755억 RUB을 초과하는 규모가 될 것이다. 설비 시운전의 총량에 있어서 SS는 66,869.86MVA이고, PTL은 16,984.65 km이다. 핵심 FGC의 2014~2016년 투자 계획은 다음과 같다.

∙ ESPO 파이프라인을 위한 전력 공급 설비(2012~2014)

한국전기산업연구원 55 러시아 에너지시스템 시장 현황

∙ Vankorskoye 평원의 전력 공급 설비의 건설(2013~2014) ∙ Leningradskaya NPP 2의 전력단위 설비 #1에 의해 생산된 전력(1,170MW)의 제공 (2014) ∙ Neryungrinskaya SDPP로부터 Nizhniy Kuranakh-Tommot-Maya에 이르는 220KV 송전선로, 220kV Tommot SS 및 220kV Maya SS의 건설 (2015) ∙ Zapolyarie-Purpe 파이프라인에서 전력공급 설비의 건설 (2016)

‘러시아 개발 UES를 위한 체계 및 프로그램’에 따르면, 2014~2019년 총 송전설비 시운전의 양은 다음 과 같다:

∙ 가공 송전선로 220kV 이상 ‒ 39,964.2 km ∙ 변환기 용량 ‒ 113,584 MVA

2030년까지의 전력 부문 개체들의 할당에 대한 일반적 체계에 따르면, 220kV 및 이를 초과하는 UNEG 전력망의 길이와 변환기 용량은 2030년까지 각각 28만km 및 64만 6,000MVA에 해당할 것이다. 2012~2017년 기간의 회사 투자프로그램을 위한 총 자금조달 규모는 9,660억 RUB(VAT 포함)을 초과할 것이다. 새로운 고정자산의 총량은 다음과 같다.

∙ 송전선로 ‒ 105,946 km. ∙ 변환기 용량 – 65,258MVA

현재 러시아 전력망 시장(송전 설비의 건설 및 개혁)은 러시아 회사들이 주도하고 있다. 일부 입찰에서 외국 회사들의 참여가 제안되기도 하지만, 다른 입찰에서는 계약을 수행하는 회사는 러시아 연방의 영역 에 등록되어 있어야 한다는 직접적인 규정이 존재한다. 이 외에도 계약자를 선택함에 있어서 주문자들은 FGC UES / IDGC 지주회사와 긍정적인 업무 경험 을 가지고 있는 회사들을 선호하고 있다. 또한 제안되는 장비 및 물건들은 인증의 통과를 포함하여 FGC UES의 모든 요건을 충족시켜야 한다. 따라서 외국 회사들(특히 한국 회사들)이 시장에 진입하기 위한 전망은 그리 호의적이라고 보기 어렵다.

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3. 러시아 스마트 그리드 시장

‘스마트그리드(SMART(Self Monitoring Analysis and Reporting Technology)’라는 용어는 전력시스템의 현대화를 의미하며, 상호 연계요소들의 작동을 보호하고 자동적으로 최적화한다. 이러한 요소들은 집중화 되고 또한 분산된 발전설비로부터 고전압 네트워크 및 배전시스템을 거쳐 산업체 사용자 및 빌딩자동화시 스템, 에너지저장설비 및 최종 사용자의 온도 조절 장치, 전기자동차, 전기장치 및 다른 가전장비들로 전달 된다. 러시아에서 스마트그리드는 능동-적응형 그리드(active-adaptive grid: AAG) 개념을 의미하는 것으로 보 이는 데, 이는 원하는 시간에 필요한 양 만큼 전력생산원으로부터 수신자에게 높은 신뢰도와 품질을 지닌 전력을 제공하는 정보분석 및 운영시스템과 아울러 전력생산원으로부터 소비자의 전기장치로 연결된 SH 들의 집합체로 정의될 수 있을 것이다. 현재 러시아에서는 에너지 효율의 분야에서 다양한 프로젝트가 추진되고 있다:

∙ 국가 수준의 프로젝트: ‘계량, 절약 및 지급(Count, Save and Pay)’ 프로젝트, ‘뉴라이트(New light)’ 프로젝트, ‘에너지 효율 블록’ 프로젝트, ‘에너지 효율 사회적 부문’ 프로젝트 ∙ 지역 수준의 프로젝트: Bryansk 지역, Belgorod 지역, 모스크바와 세인트 페테스부르그(St. Petersburg) 에서 Schneider Electric의 프로젝트, Skolkovo 지역 ∙ FGC UES 및 Russian Gids / IDGC 지주회사의 혁신적 개발 프로그램 내에서의 프로젝트

미국을 중심으로 한 세계적인 추세는 시장의 성장과 활성화를 위한 첫 번째 요소로 지능형 계량기가 주목을 받았다면, 러시아에서의 스마트그리드 구현은 백본 및 배전 전력망 단계에서 시작되었다. 이러한 점은 현행 계량기 설치 프로그램(‘계량, 절약 및 지급(Count, Save and Pay)’ 프로젝트)이 계량기와 과금 시스템 사이의 능동적 정보 교환을 제공하지 않는다는 사실로 설명될 수 있다. 이는 공식적으로 이러한 계량기들이 정보전송 채널의 부재와 자동화된 계량 입력 기능의 결여로 스마트그리드에 속하지 않는다는 사실을 의미한다. 백본 및 배전 전력망에서 SS의 현대화 잠재력(교체를 요하는 장비)은 약 150,000개의 개체에 달하며, PTL의 약 140,000km이다. 백본 및 배전 전력망 단계에서 스마트그리드의 기회에 대한 추정은 FGC UES 및 Russian Gids / IDGC 지주회사의 혁신적 개발 프로그램에 대한 투자의 규모를 기반으로 수행되었다. 2013~2016년도의 투자총액은 R&D 비용 1,189억 9,000만 RUB을 포함한 483억 7,000만 규모이다. 스마트 그리드 실현의 측면에서 볼 때, 최종 소비자 단계에서 가장 현저한 2개의 시장 부문은 다음과 같다.

∙ 전기계량기 시장

한국전기산업연구원 57 러시아 에너지시스템 시장 현황

∙ 자동화 빌딩 제어 시스템(automated building control system: ABCS) 시장

러시아의 전기계량기 시장은 잘 개발되어 있으나 포화 상태에 다다르고 있다. 이 분야의 선두 제조사는 소비자가 요구하는 제품의 사양을 갖추기 위해 끊임없이 분투하고 있으며, 가격적 요소는 정책 과정에서 결정적인 요소는 아니다. 이러한 사실은 정부가 현금결제 센터의 현대화에 관심이 있는 경우에는 스마트 그리드 시스템의 개발을 위한 우호적인 토양이 조성될 수 있음을 의미한다. 스마트그리드 시장은 가정의 에너지 소비 및 빌딩 수준의 에너지 소비 관리와 연관되어 있으며, ABCS 시장과 중첩되고 있다. 러시아에서 에너지 소비 관리 시스템은 지능형 빌딩의 많은 프로젝트에 포함되었다. 이러한 시스템의 확장 수준이 극히 미약하지만 계속 증가하는 추세에 있다. 연방정부 차원에서 에너지 효율의 문제에 대한 관심이 증대되고 있어 모든 ‘스마트 하우스’ 프로젝트에 기본적이고 통합된 해결책이 될 것으로 기대된다. 러시아에서 가장 가능성이 높은 스마트그리드 시장 참여자들은 다음과 같은 회사들 중에서 고려될 수 있다.

① 백본 및 배전 전력망 단계 ∙ Schneider Electric이나 Cisco와 같이 자동화 시장에서 영업 중인 외국 기업들 ∙ FGC UES 및 Russian Grids의 주문에 따라 백본 및 배전 설비의 건축 및 재건축 서비스(엔지니어링 서비스 포함)를 제공하는 회사들(보다 자세한 정보는, 송전 설비의 건축 및 재건축 참조).

② 최종 소비자 단계 ∙ ‘지능형 빌딩’ 시스템 제조사 ∙ ‘스마트 홈/하우스’ 시스템 제조사 ∙ ‘지능형 빌딩’ 및 ‘스마트 홈/하우스’ 시스템 통합 사업자

지능형 에너지 시스템 관련 러시아 시장은 예측하기 매우 복잡한 상황이다. 러시아에서는 스마트그리드 에서 사용되는 장비들과 중첩되는 다양한 요소들이 이미 상당한 정도로 광범위하게 보급되어 있다. 보급 정도가 낮은 부문에서는 백본 및 배전 전력망을 위한 네트워크 인터페이스를 가지는 복잡한 장비들에 적 용되며, 보급 정도가 높은 부문에서는 PTL, SS 및 기업 ․ 민간소비자 수준에서의 전기계량 장비 및 간단한 전기자동화 장비에 적용된다. 그러나 이들 대부분은 디지털 통신시스템들을 제공하지 않으며, 피드백 제공 이 불가능하기 때문에 관리 및 모니터링 기능을 제공하지 않는다. 여러 가지 측면에서 러시아의 지능형 에너지 시스템에 대한 전망은 FGC UES 및 Russian Grids의 투자 프로그램에 따라 달라질 것이다. 투자 규모가 글로벌 프로젝트로서는 크지 않은 것이 사실이지만, 이는 이후 본 사업 체제에서의 풍부한 응용과 수립을 위한 시범 프로젝트의 실현을 위해서는 충분하다. 주목할 만한 다른 성장 부문은 에너지를 집중적으로 사용하는 산업계의 전력공급설비의 자동화와 신설

58 Russian Energy Systems Market Research 요 약

빌딩의 운영을 위한 지능형 시스템 설계 분야이다. 민간 사용자에 대한 계량 시스템의 설치 부문은, 때로 는 전력 공급자 및 과금 서비스에 있어 피드백의 부족으로 인해, 적극적으로 개발되지 않을 것이며, 이는 주로 호화부동산 현장에서의 프로젝트에 기인한다. 러시아 내 스마트그리드 사업을 수행하는 외국 회사들에 의해 시장 개발을 위한 무조건 적인 지원이 이루어질 것이다. 시장 개발에 있어서 주된 장애는 전력망 설계(주요 현장 설계의 응용)의 전통, 낮은 에너 지 비용 및 RES에 기반한 낮은 생산 수준이라 할 수 있다. 따라서 러시아에서 지능형 에너지 시스템을 구현하려는 시도는 물질적 ․ 심리적인 요소에 직면하게 된 다. 이러한 높은 장벽을 극복하기 위해서는 FGC UES 및 Russian Grids의 활동을 촉진시킴과 동시에 직 접적인 정부의 정책이 뒷받침 되어야 한다. 또한 러시아 UES 배전망의 백본 및 주 장치 부분이 정부의 감시를 받고 있기 때문에(러시아 연방이 FGC UES 지분의 70% 이상, 러시아 그리드 지분의 40% 이상을 소유하고 있음), 이들 설비들에서 스마트 그리드를 구현하기 위해서는 당국의 주도적인 노력이 수반되어야 한다.

한국전기산업연구원 59 러시아 에너지시스템 시장 현황

[부록 1]

가. UPS of North-West

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 210.6 0.0 580.0

NPP 210.6 0.0 580.0 750 kV 0.0 0.0 330.0 Installation of autotransformer (AT) 750/330 1 1000 MVA kV at 750 kV LNPP-2 Approaches of existing OL 750 kV LNPP 2 — Leningradskaya to SWYD 750 kV 4.5 km LNPP-2 2016 Leningrad 3 OL 750 kV LNPP-2 — Leningradskaya 128 km

Shunt reactor (SR) 750 kV at SS 750 kV 4 2x330 Mvar Leningradskaya Shunt reactor (SR) 750 kV at SS 750 kV 5 2014 330 Mvar 330.0 Leningradskaya

330 kV 210.6 0.0 250.0 Approaches of OL 330 kV Leningradskaya 6 2014 2x0.5 km 1.0 — Balti to SS 330 kV Kingesepskaya Cable-overhead line (COL) 330 kV OL-90km,CL- Leningradskaya NPP-2 Pulkovskaya 7 — — Leningrad 2014 25km,2x100M 115.0 250.0 Juzhnaya with installation of SR at SS 330 var,50Mvar kV Pulkovskaya and SS 330 kV Juzhnaya OL 330 kV Leningradskaya NPP-2 8 — 2014 94.6 km 94.6 Gatchinskaya

OL 330 kV Baltiyskaya NPP Sovetsk 9 — 2016 33.8 km (3rd OL)

Approaches of OL 330 kV Sovetsk 10 — 2017 2x31 km Bitenay to Baltiyskaya NPP

Approaches of OL 330 kV Sovetsk 11 — 2017 2x4 km Kruonino PSPP to Baltiyskaya NPP

Replacement of wires for AC 2x600 at Kaliningrad 12 segments of two OL 330 kV Sovetsk — 2017 8.6+36.5 km Baltiyskaya NPP

2590 MVA, 13 DC link Mamonovo 800 MW 2017 360 Mvar Two OL 330 kV Baltiyskaya NPP DC 14 — 2x190 km link Mamonovo 2017 OL 330 kV Tsentralnaya DC link 15 — 45 km Mamonovo 2x(3x60) 16 Shunt reactors 2017 Mvar

60 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 0.0 0.0 497.3 5,860.0 660.0 540.1 2,590.0 720.0 321.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 307.3 5,860.0 660.0 540.1 2,590.0 720.0 321.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 132.5 1,000.0 660.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

1,000.0

4.5

128.0

660.0

0.0 0.0 0.0 46.8 0.0 0.0 540.1 2,590.0 720.0 321.0 0.0 0.0 0.0 0.0 0.0

33.8

62.0

8.0

45.1

2,590.0 360.0

380.0

45.0

360.0

한국전기산업연구원 61 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 1,569.0 8,450.0 1,960.0 NPP 1,379.0 8,450.0 1,960.0 750 kV 132.5 1,000.0 990.0 Installation of autotransformer (AT) 750/330 1 1000 MVA 0.0 1,000.0 0.0 kV at 750 kV LNPP-2

Approaches of existing OL 750 kV LNPP 2 — Leningradskaya to SWYD 750 kV 4.5 km 4.5 0.0 0.0 LNPP-2 2016 Leningrad 3 OL 750 kV LNPP-2 — Leningradskaya 128 km 128.0 0.0 0.0

Shunt reactor (SR) 750 kV at SS 750 kV 4 2x330 Mvar 0.0 0.0 660.0 Leningradskaya

Shunt reactor (SR) 750 kV at SS 750 kV 5 2014 330 Mvar 0.0 0.0 330.0 Leningradskaya

330 kV 1,118.5 2,590.0 970.0

Approaches of OL 330 kV Leningradskaya 6 2014 2x0.5 km 1.0 0.0 0.0 — Balti to SS 330 kV Kingesepskaya Cable-overhead line (COL) 330 kV OL-90km,CL- Leningradskaya NPP-2 Pulkovskaya 7 — — Leningrad 2014 25km,2x100M 115.0 0.0 250.0 Juzhnaya with installation of SR at SS 330 var,50Mvar kV Pulkovskaya and SS 330 kV Juzhnaya

OL 330 kV Leningradskaya NPP-2 8 — 2014 94.6 km 94.6 0.0 0.0 Gatchinskaya

OL 330 kV Baltiyskaya NPP Sovetsk 9 — 2016 33.8 km 33.8 0.0 0.0 (3rd OL)

Approaches of OL 330 kV Sovetsk 10 — 2017 2x31 km 62.0 0.0 0.0 Bitenay to Baltiyskaya NPP

Approaches of OL 330 kV Sovetsk 11 — 2017 2x4 km 8.0 0.0 0.0 Kruonino PSPP to Baltiyskaya NPP

Replacement of wires for AC 2x600 at Kaliningrad 12 segments of two OL 330 kV Sovetsk — 2017 8.6+36.5 km 45.1 0.0 0.0 Baltiyskaya NPP

2590 MVA, 13 DC link Mamonovo 800 MW 2017 0.0 2,590.0 360.0 360 Mvar

Two OL 330 kV Baltiyskaya NPP DC 14 — 2x190 km 380.0 0.0 0.0 link Mamonovo 2017 OL 330 kV Tsentralnaya DC link 15 — 45 km 45.0 0.0 0.0 Mamonovo

2x(3x60) 16 Shunt reactors 2017 0.0 0.0 360.0 Mvar

62 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

135,721.2 2,320.7 22,476.5 47,833.6 52,050.2 132,321.2 2,320.7 21,976.5 45,052.3 52,050.2 13,461.6 2,030.7 4,325.9 7,105.0 0.0

0.0 0.0 0.0 0.0 0.0

277.9 0.0 0.0 277.9 0.0

9,774.7 893.3 4,325.9 4,555.5 0.0

2,271.6 0.0 0.0 2,271.6 0.0

1,137.4 1,137.4 0.0 0.0 0.0

77,635.2 290.0 5,699.6 22,595.5 38,128.6

18.0 16.2 0.0 0.0 0.0

2,100.0 150.0 139.1 1,575.0 0.0

1,521.7 56.1 66.6 1,141.3 0.0

1,953.0 0.0 43.3 1,909.8 0.0

1,921.4 0.0 0.0 46.1 1,875.3

248.5 0.0 0.0 0.0 248.5

3,318.6 0.0 0.0 460.6 2,858.0

16,538.0 0.0 5,162.2 5,495.9 5,879.8

23,503.2 67.7 288.4 11,199.1 11,948.0

4,115.7 0.0 0.0 76.8 4,038.9

1,125.5 0.0 0.0 0.0 1,125.5

한국전기산업연구원 63 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 10,426.1 NPP 10,426.1 750 kV 0.0 Installation of autotransformer (AT) 750/330 1 1000 MVA 0.0 kV at 750 kV LNPP-2

Approaches of existing OL 750 kV LNPP 2 — Leningradskaya to SWYD 750 kV 4.5 km 0.0 LNPP-2 2016 Leningrad 3 OL 750 kV LNPP-2 — Leningradskaya 128 km 0.0

Shunt reactor (SR) 750 kV at SS 750 kV 4 2x330 Mvar 0.0 Leningradskaya

Shunt reactor (SR) 750 kV at SS 750 kV 5 2014 330 Mvar 0.0 Leningradskaya

330 kV 10,426.1

Approaches of OL 330 kV Leningradskaya 6 2014 2x0.5 km 0.0 — Balti to SS 330 kV Kingesepskaya Cable-overhead line (COL) 330 kV OL-90km,CL- Leningradskaya NPP-2 Pulkovskaya 7 — — Leningrad 2014 25km,2x100M 0.0 Juzhnaya with installation of SR at SS 330 var,50Mvar kV Pulkovskaya and SS 330 kV Juzhnaya

OL 330 kV Leningradskaya NPP-2 8 — 2014 94.6 km 0.0 Gatchinskaya

OL 330 kV Baltiyskaya NPP Sovetsk 9 — 2016 33.8 km 0.0 (3rd OL)

Approaches of OL 330 kV Sovetsk 10 — 2017 2x31 km 0.0 Bitenay to Baltiyskaya NPP

Approaches of OL 330 kV Sovetsk 11 — 2017 2x4 km 0.0 Kruonino PSPP to Baltiyskaya NPP

Replacement of wires for AC 2x600 at Kaliningrad 12 segments of two OL 330 kV Sovetsk — 2017 8.6+36.5 km 0.0 Baltiyskaya NPP

2590 MVA, 13 DC link Mamonovo 800 MW 2017 0.0 360 Mvar

Two OL 330 kV Baltiyskaya NPP DC 14 — 2x190 km 0.0 link Mamonovo 2017 OL 330 kV Tsentralnaya DC link 15 — 45 km 0.0 Mamonovo

2x(3x60) 16 Shunt reactors 2017 0.0 Mvar

64 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 135,107.1 0.0 131,825.8 0.0 13,461.6

0.0 0.0 Investor -

0.0 277.9 -

JSC «FGC UES» 0.0 9,774.7 -

0.0 2,271.6 -

0.0 1,137.4 JSC «FGC UES» -

0.0 77,139.8

0.0 16.2 P

0.0 1,864.1JSC «FGC UES» P

0.0 1,264.0 P

0.0 1,953.1 -

0.0 1,921.4 -

0.0 248.5 -

JSC «FGC UES» 0.0 3,318.6 -

0.0 16,537.9 -

0.0 23,503.2 -

0.0 4,115.7 -

0.0 1,125.5 -

한국전기산업연구원 65 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Two OL 330 kV Sovetsk — Bitenay — 17 Klaypeda (dismantlement of the old OL 2x100 km and construction of the two new ones) Kaliningrad, 2018 Lithuania Two OL 330 kV Baltiyskaya NPP — Bitenay Jurbarkas (dismantlement of 18 — 76+45 km the old OL and construction of the two new ones)

330 kV 0.0 0.0 0.0

DCtransmissionLeningradskayaNPP-2 — Vyborgskaya±300kV1000MW, including

SS DC 4860 MW

19 Leningrad 2016 OL DC 87 km

CL DC 41 km

CL-2x5.5 km, COL 330 kV LNPP-2 SS DC — OL-2x1 km

TPP 0.0 0.0 0.0 330 kV 0.0 0.0 0.0

Double-circuit approaches of OL 330 kV 20 Leningradskaya — Kolpino to SWYD 330 Leningrad 2016 2x95 km kV of Kirishskaya SDPP

Interconnection power transmission lines 0.0 0.0 0.0

330 kV 0.0 0.0 0.0 450 km, OL 750 kV Leningradskaya — Leningrad, 21 2019 2xSR 330 Belozerskaya Vologda Mvar

330 kV 0.0 0.0 0.0

Pskov, 22 OL 330 kV Novosokolniki Talashkino 2018 230 km — Smolensk

Interconnection power transmission lines 2.0 25.0 0.0

330 kV 0.0 0.0 0.0

SS 330 kV Ruchei with approaches of OL 2x125 MVA, 23 Novgorod 2015 330 kV Leningradskaya — Chudovo 2x1 km

2x200 MVA, SS 330 kV Ust-Luga with approaches of 24 Leningrad 2016 2x1 km, 100 OL 330 kV LNPP-2 Kingiseppskaya — Mvar

220 kV 2.0 25.0 0.0 Komi 25 OL 220 kV Mikun Syktyvkar (2d OL) 2017 87.2 km — Republic

66 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

200.0

121.0

0.0 0.0 0.0 128.0 4,860.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

4,860.0

87.0

41.0

13.0

0.0 0.0 0.0 190.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 190.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

190.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 230.0 0.0 0.0 450.0 0.0 660.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 450.0 0.0 660.0

450.0 660.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 230.0 0.0 0.0 0.0 0.0 0.0

230.0

2.0 250.0 0.0 2.0 400.0 100.0 87.2 125.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

2.0 250.0 0.0 2.0 400.0 100.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

2.0 250.0

2.0 400.0 100.0

0.0 0.0 0.0 0.0 0.0 0.0 87.2 125.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

87.2

한국전기산업연구원 67 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km total ing SS, MVA km MVA Mvar (Mvar)

Two OL 330 kV Sovetsk — Bitenay — 17 Klaypeda (dismantlement of the old OL 2x100 km 200.0 0.0 0.0 and construction of the two new ones) Kaliningrad 2018 , Lithuania Two OL 330 kV Baltiyskaya NPP — Bitenay Jurbarkas (dismantlement of 18 — 76+45 km 121.0 0.0 0.0 the old OL and construction of the two new ones)

330 kV 128.0 4,860.0 0.0 DCtransmissionLeningradskayaNPP-2 Vyb — 0.0 0.0 0.0 orgskaya±300kV1000MW,including

SS DC 4860 MW 0.0 4,860.0 0.0

19 OL DC Leningrad 2016 87 km 87.0 0.0 0.0

CL DC 41 km 41.0 0.0 0.0 CL-2x5.5 km, 13.0 0.0 0.0 COL 330 kV LNPP-2 — SS DC OL-2x1 km

TPP 190.0 0.0 0.0 330 kV 190.0 0.0 0.0 Double-circuit approaches of OL 330 kV 20 Leningradskaya — Kolpino to SWYD 330 Leningrad 2016 2x95 km 190.0 0.0 0.0 kV of Kirishskaya SDPP

Interconnection power transmission lines 680.0 0.0 660.0

330 kV 450.0 0.0 660.0 450 km, OL 750 kV Leningradskaya Leningrad, 21 — 2019 2xSR 330 450.0 0.0 660.0 Belozerskaya Vologda Mvar

330 kV 230.0 0.0 0.0

Pskov, 22 OL 330 kV Novosokolniki Talashkino 2018 230 km 230.0 0.0 0.0 — Smolensk

Interconnection power transmission lines 93.2 800.0 100.0

330 kV 4.0 650.0 100.0

SS 330 kV Ruchei with approaches of OL 2x125 MVA, 23 Novgorod 2015 2.0 250.0 0.0 330 kV Leningradskaya — Chudovo 2x1 km

2x200 MVA, SS 330 kV Ust-Luga with approaches of 24 Leningrad 2016 2x1 km, 100 2.0 400.0 100.0 OL 330 kV LNPP-2 Kingiseppskaya — Mvar

220 kV 89.2 150.0 0.0 Komi 25 OL 220 kV Mikun Syktyvkar (2d OL) 2017 87.2 km 87.2 0.0 0.0 — Republic

68 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

13,153.2 0.0 0.0 614.1 6,060.0

8,118.4 0.0 0.0 76.8 4,094.6

41,224.4 0.0 11,951.0 15,351.8 13,921.6

0.0 0.0 0.0 0.0 0.0

41,224.4 0.0 11,951.0 15,351.8 13,921.6

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

3,400.0 0.0 500.0 2,781.3 0.0

3,400.0 0.0 500.0 2,781.3 0.0

3,400.0 0.0 500.0 2,781.3 0.0

38,815.9 67.7 288.4 8,875.9 9,494.2

34,915.9 67.7 288.4 7,675.9 8,189.2

34,915.9 67.7 288.4 7,675.9 8,189.2

3,900.0 0.0 0.0 1,200.0 1,305.0

3,900.0 0.0 0.0 1,200.0 1,305.0

8,387.7 1,603.9 2,648.8 2,342.8 1,496.8

5,135.5 1,003.4 2,620.0 1,130.0 218.2

2,950.0 600.6 2,120.0 148.6 0.0

2,185.5 402.8 500.0 981.4 218.2

3,252.2 600.5 28.8 1,212.8 1,278.6

2,072.0 0.0 14.4 1,074.6 983.0

한국전기산업연구원 69 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar)

Two OL 330 kV Sovetsk — Bitenay — 17 Klaypeda (dismantlement of the old OL 2x100 km 6,479.1 and construction of the two new ones) Kaliningrad, 2018 Lithuania Two OL 330 kV Baltiyskaya NPP — Bitenay Jurbarkas (dismantlement of 18 — 76+45 km 3,947.0 the old OL and construction of the two new ones)

330 kV 0.0 DCtransmissionLeningradskayaNPP-2 Vyb — 0.0 orgskaya±300kV1000MW,including

SS DC 4860 MW 0.0 19 OL DC Leningrad 2016 87 km 0.0 CL DC 41 km 0.0 CL-2x5.5 km, COL 330 kV LNPP-2 SS DC 0.0 — OL-2x1 km

TPP 0.0 330 kV 0.0

Double-circuit approaches of OL 330 kV 20 Leningradskaya — Kolpino to SWYD 330 Leningrad 2016 2x95 km 0.0 kV of Kirishskaya SDPP

Interconnection power transmission lines 10,201.6

330 kV 8,900.9 450 km, OL 750 kV Leningradskaya Leningrad, 21 — 2019 2xSR 330 8,900.9 Belozerskaya Vologda Mvar

330 kV 1,300.7

Pskov, 22 OL 330 kV Novosokolniki Talashkino 2018 230 km 1,300.7 — Smolensk

Interconnection power transmission lines 0.0

330 kV 0.0

SS 330 kV Ruchei with approaches of OL 2x125 MVA, 23 Novgorod 2015 0.0 330 kV Leningradskaya — Chudovo 2x1 km

2x200 MVA, SS 330 kV Ust-Luga with approaches of 24 Leningrad 2016 2x1 km, 100 0.0 OL 330 kV LNPP-2 Kingiseppskaya — Mvar

220 kV 0.0 Komi 25 OL 220 kV Mikun Syktyvkar (2d OL) 2017 87.2 km 0.0 — Republic

70 Russian Energy Systems Market Research 부록 1

Capital investments (money Capital investments (money of the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 2019 development)

mln RUB mln RUB

0.0 13,153.2 -

JSC «FGC UES»

0.0 8,118.4 -

0.0 41,224.4

0.0 0.0

0.0 41,224.4 0.0 0.0 JSC «FGC UES» - 0.0 0.0

0.0 0.0

0.0 3,281.3 0.0 3,281.3

0.0 3,281.3 JSC «FGC UES» P

9,793.8 38,721.6

9,793.8 34,915.9

9,793.8 34,915.9 JSC «FGC UES» -

0.0 3,805.7

0.0 3,805.7 JSC «FGC UES» P

0.0 8,092.3

0.0 4,971.6

0.0 2,869.2 JSC «FGC UES» C

0.0 2,102.4 JSC «FGC UES» P

0.0 3,120.7

0.0 2,072.0 JSC «FGC UES» -

한국전기산업연구원 71 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Syktyvkar 26 Komi 2017 125 MVA (installation of the 2d AT) Republic

SS 220 kV Novaya with transformer Komi 25 MVA, 27 220/10 kV and branch from PTL 220 kV 2014 2.0 25.0 Republic 2 km Vorkuta — Inta to SS 220 kV Novaya

Facilities for relieving of transmission constraints and reinforcement of reliability of electric 32.1 1,650.0 60.0 power supply to existing consumers

330 kV 32.1 1,650.0 60.0

SS 330/110 kV Vasileostrovskaya with CL CL-12.5 km 12.5 330 kV Severnaya — Vasileostrovskaya and CL 330 kV Vasileostrovskaya — CL-8 km 8.0 Zavod Il'icha with installation of SR at SS 28 Leningrad 2014 330 kV Vasileostrovskaya (60 Mvar) (installation of SR 60 Mvar is included in 2x200 MVA 400.0 the design of SS 330 kV Vasileostrovskaya) 60 Mvar 60.0

SS 330/110 kV Parnas with approaches of 2x1 km, 29 Leningrad 2014 2.0 400.0 OL 330 kV Vostochnaya — Severnaya 2x200 MVA

SS 330 kV Murmanskaya with approaches Murmansk 2x250 MVA, 30 of OL 330 kV Vykhodnoy 2014.2019 9.0 250.0 — oblast 2x4.5 km Serebryanskaya HPP-1

SS 330/110 kV Pulkovskaya with cable 2x0.3 km, 31 approaches of OL 330 kV Zapadnaya Leningrad 2014 0.6 600.0 — 3x200 MVA Juzhnaya

SS 330/110 kV Lomonosovskaya with 2x200 MVA, 32 approaches of COL 330 kV LNPP Leningrad 2017 — 2x6.3 km Zapadnaya

OL 330 kV Ondskiy Petrozavodskaya 33 — Karelia 2018 278 km (2d OL)

SS 330 kV Zanevskaya with approaches 2x5 km, 34 of OL 330 kV Vostochnaya Kirishskaya Leningrad 2017 — 2x200 MVA SDPP

SS 330 kV Okulovskaya (installation of the 35 Novgorod 2016 125 MVA 3rd AT 330/110 kV 125 MVA)

SS 330 kV Novosokolniki (installation of 36 Pskov 2017 125 MVA the 3rd AT 330/110 kV 125 MVA)

SS 330 kV Novodevyatkino near 2x200 MVA, 37 Severnaya CHPP-21 with approaches of Leningrad 2017 2x1.2 km OL 330 kV Vostochnaya — Vyborg

Leningrad, 38 OL 330 kV Petrozavodskaya Tikhvin 2018 280 km — Karelia

72 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

125.0

294.3 0.0 75.0 0.0 125.0 0.0 169.0 1,325.0 100.0 808.0 0.0 0.0 0.6 650.0 0.0

0.0 0.0 0.0 0.0 125.0 0.0 65.0 1,325.0 100.0 558.0 0.0 0.0 0.6 650.0 0.0

250.0

12.6 400.0

278.0

10.0 400.0

125.0

125.0

2.4 400.0

280.0

한국전기산업연구원 73 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km total ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Syktyvkar (installation of the Komi 26 2017 125 MVA 0.0 125.0 0.0 2d AT) Republic

SS 220 kV Novaya with transformer Komi 25 MVA, 27 220/10 kV and branch from PTL 220 kV 2014 2.0 25.0 0.0 Republic 2 km Vorkuta — Inta to SS 220 kV Novaya

Facilities for relieving of transmission constraints and reinforcement of reliability of electric 1,304.0 3,750.0 235.0 power supply to existing consumers

330 kV 655.7 3,750.0 160.0

SS 330/110 kV Vasileostrovskaya with CL CL-12.5 km 12.5 0.0 0.0 330 kV Severnaya — Vasileostrovskaya and CL 330 kV Vasileostrovskaya — Zavod Il'icha with installation of SR at SS CL-8 km 8.0 0.0 0.0 28 Leningrad 2014 330 kV Vasileostrovskaya (60 Mvar) (installation of SR 60 Mvar is included in 2x200 MVA 0.0 400.0 0.0 the design of SS 330 kV Vasileostrovskaya) 60 Mvar 0.0 0.0 60.0

SS 330/110 kV Parnas with approaches 2x1 km, 29 Leningrad 2014 2.0 400.0 0.0 of OL 330 kV Vostochnaya — Severnaya 2x200 MVA

SS 330 kV Murmanskaya with Murmansk 2x250 MVA, 30 approaches of OL 330 kV Vykhodnoy 2014.2019 9.0 500.0 0.0 — oblast 2x4.5 km Serebryanskaya HPP-1

SS 330/110 kV Pulkovskaya with cable 2x0.3 km, 31 approaches of OL 330 kV Zapadnaya Leningrad 2014 0.6 600.0 0.0 — 3x200 MVA Juzhnaya

SS 330/110 kV Lomonosovskaya with 2x200 MVA, 32 approaches of COL 330 kV LNPP Leningrad 2017 12.6 400.0 0.0 — 2x6.3 km Zapadnaya

OL 330 kV Ondskiy Petrozavodskaya 33 — Karelia 2018 278 km 278.0 0.0 0.0 (2d OL)

SS 330 kV Zanevskaya with approaches 2x5 km, 34 of OL 330 kV Vostochnaya Kirishskaya Leningrad 2017 10.0 400.0 0.0 — 2x200 MVA SDPP

SS 330 kV Okulovskaya (installation of 35 Novgorod 2016 125 MVA 0.0 125.0 0.0 the 3rd AT 330/110 kV 125 MVA)

SS 330 kV Novosokolniki (installation of 36 Pskov 2017 125 MVA 0.0 125.0 0.0 the 3rd AT 330/110 kV 125 MVA)

SS 330 kV Novodevyatkino near 2x200 MVA, 37 Severnaya CHPP-21 with approaches of Leningrad 2017 2.4 400.0 0.0 2x1.2 km OL 330 kV Vostochnaya — Vyborg

Leningrad, 38 OL 330 kV Petrozavodskaya Tikhvin 2018 280 km 280.0 0.0 0.0 — Karelia

74 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

448.2 0.0 14.4 138.2 295.6

732.0 600.5 0.0 0.0 0.0

74,707.7 6,486.3 6,194.2 14,879.5 19,818.5

56,929.5 4,424.0 3,610.9 12,078.3 16,789.2

0.0 0.0 0.0 0.0 0.0

8,259.1 623.1 1,101.9 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

2,714.1 902.2 271.4 0.0 0.0

3,126.2 1,210.4 0.0 0.0 0.0

2,827.9 1,042.5 766.0 0.0 0.0

2,883.1 67.7 0.0 1,228.1 1,391.2

8,518.1 0.0 0.0 211.2 4,094.6

2,805.8 0.0 288.4 1,074.6 1,442.8

487.0 24.0 30.0 409.0 24.0

618.5 30.0 75.0 216.1 266.5

2,572.4 0.0 695.2 829.0 1,048.2

6,503.7 470.0 210.0 1,923.5 2,000.0

한국전기산업연구원 75 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) SS 220 kV Syktyvkar (installation of the Komi 26 2017 125 MVA 0.0 2d AT) Republic

SS 220 kV Novaya with transformer Komi 27 220/10 kV and branch from PTL 220 kV 2014 25 MVA, 2 km 0.0 Republic Vorkuta — Inta to SS 220 kV Novaya

Facilities for relieving of transmission constraints and reinforcement of reliability of electric power 10,145.2 supply to existing consumers

330 kV 7,894.5

SS 330/110 kV Vasileostrovskaya with CL CL-12.5 km 0.0 330 kV Severnaya — Vasileostrovskaya and CL 330 kV Vasileostrovskaya — CL-8 km 0.0 Zavod Il'icha with installation of SR at SS 28 Leningrad 2014 330 kV Vasileostrovskaya (60 Mvar) (installation of SR 60 Mvar is included in 2x200 MVA 0.0 the design of SS 330 kV Vasileostrovskaya) 60 Mvar 0.0

SS 330/110 kV Parnas with approaches of 2x1 km, 2x200 29 Leningrad 2014 0.0 OL 330 kV Vostochnaya — Severnaya MVA

SS 330 kV Murmanskaya with approaches Murmansk 2x250 MVA, 30 of OL 330 kV Vykhodnoy 2014.2019 0.0 — oblast 2x4.5 km Serebryanskaya HPP-1

SS 330/110 kV Pulkovskaya with cable 2x0.3 km, 31 approaches of OL 330 kV Zapadnaya Leningrad 2014 0.0 — 3x200 MVA Juzhnaya

SS 330/110 kV Lomonosovskaya with 2x200 MVA, 32 approaches of COL 330 kV LNPP Leningrad 2017 0.0 — 2x6.3 km Zapadnaya

OL 330 kV Ondskiy Petrozavodskaya 33 — Karelia 2018 278 km 4,212.3 (2d OL)

SS 330 kV Zanevskaya with approaches 2x5 km, 34 of OL 330 kV Vostochnaya Kirishskaya Leningrad 2017 0.0 — 2x200 MVA SDPP

SS 330 kV Okulovskaya (installation of the 35 Novgorod 2016 125 MVA 0.0 3rd AT 330/110 kV 125 MVA)

SS 330 kV Novosokolniki (installation of 36 Pskov 2017 125 MVA 30.9 the 3rd AT 330/110 kV 125 MVA)

SS 330 kV Novodevyatkino near 2x200 MVA, 37 Severnaya CHPP-21 with approaches of Leningrad 2017 0.0 2x1.2 km OL 330 kV Vostochnaya — Vyborg

Leningrad, 38 OL 330 kV Petrozavodskaya Tikhvin 2018 280 km 1,900.2 — Karelia

76 Russian Energy Systems Market Research 부록 1

Capital investments (money of Capital investments (money the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 total development)

mln RUB mln RUB

0.0 448.2 JSC «FGC UES» -

0.0 600.5 Investor -

1,577.5 59,101.2

1,577.5 46,374.4

0.0 0.0

0.0 1,725.0 JSC «FGC UES» C 0.0 0.0

0.0 0.0

0.0 1,173.6 JSC «FGC UES» -

650.8 1,861.2 JSC «FGC UES» C

0.0 1,808.5 JSC «FGC UES» P

0.0 2,687.0 JSC «FGC UES» C

0.0 8,518.1 JSC «FGC UES» P

0.0 2,805.8 JSC «FGC UES» P

0.0 487.0 JSC «FGC UES» P

0.0 618.5 JSC «FGC UES» P

0.0 2,572.4 JSC «FGC UES» P

0.0 6,503.7 JSC «FGC UES» P

한국전기산업연구원 77 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Construction of two CL 330 kV 2x20 km, 39 Pulkovskaya Zapadnaya with installation Leningrad 2017 — 100 Mvar of SR 330 kV at SS 330 kV Zapadnaya

SS 330 kV Western Rapid Diameter 2x200 MVA, 40 Leningrad 2019 (WRD) 2x0.3 km

220 kV 0.0 0.0 0.0

252.8 km, OL 220 kV Pechyorskaya SDPP Ukhta Komi 41 — 2013.2015 294.3 km, Mikun' Republic — 2x75 Mvar

42 OL 220 kV Petrozavodsk — Suoyarvi Karelia 2017 104 km

Komi 43 OL 220 kV Mikun — Zaovrazh'e Republic, 2018 250 km Arkhangelsk

Facilities of renovation with increasing of transformer capacity 0.0 0.0 0.0

330 kV 0.0 0.0 0.0

Reconstruction of SS 330 kV Tikhvin — 1x125 MVA, 44 Liteiny (replacement of AT and installation Leningrad 2017 2x200 MVA, of the 2d AT 330/110 kV 200 MVA) 250 MVA

220 kV 0.0 0.0 0.0

Reconstruction of SS 220 kV Drevlyanka 45 (№2) (replacement of AT with increasing Karelia 2016 2x200 MVA of capacity)

Reconstruction of SS 220 kV 46 Medvezh'egorsk (replacement of AT with Karelia 2016 2x63 MVA increasing of capacity)

Complex reconstruction of SS 220 kV 47 Pargolovo (replacement of transformer Leningrad 2019 2x80 MVA equipment 2x25 MVA with 2x80 MVA)

Reconstruction of SS 220 kV Usinskaya Komi 48 (replacement of AT with increasing of 2017 2x80 MVA Republic capacity)

TOTAL, including 244.7 1,675.0 640.0

750 kV 0.0 0.0 330.0

330 kV 242.7 1,650.0 310.0

±300 kV 0.0 0.0 0.0

220 kV 2.0 25.0 0.0

78 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

40.0 100.0

0.6 400.0

294.3 0.0 75.0 0.0 0.0 0.0 104.0 0.0 0.0 250.0 0.0 0.0 0.0 0.0 0.0

294.3 75.0

104.0

250.0

0.0 0.0 0.0 0.0 526.0 0.0 0.0 935.0 0.0 0.0 0.0 0.0 0.0 160.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 775.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

775.0

0.0 0.0 0.0 0.0 526.0 0.0 0.0 160.0 0.0 0.0 0.0 0.0 0.0 160.0 0.0

400.0

126.0

160.0

160.0

296.3 250.0 75.0 499.3 6,911.0 760.0 796.3 4,975.0 820.0 1,359.0 0.0 0.0 450.6 810.0 660.0

0.0 0.0 0.0 132.5 1,000.0 660.0 0.0 0.0 0.0 0.0 0.0 0.0 450.0 0.0 660.0

2.0 250.0 0.0 238.8 525.0 100.0 605.1 4,690.0 820.0 1,109.0 0.0 0.0 0.6 650.0 0.0

0.0 0.0 0.0 128.0 4,860.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

294.3 0.0 75.0 0.0 526.0 0.0 191.2 285.0 0.0 250.0 0.0 0.0 0.0 160.0 0.0

한국전기산업연구원 79 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Construction of two CL 330 kV 2x20 km, 100 39 Pulkovskaya Zapadnaya with installation Leningrad 2017 40.0 0.0 100.0 — Mvar of SR 330 kV at SS 330 kV Zapadnaya

2x200 MVA, 40 SS 330 kV Western Rapid Diameter (WRD) Leningrad 2019 0.6 400.0 0.0 2x0.3 km

220 kV 648.3 0.0 75.0

252.8 km, OL 220 kV Pechyorskaya SDPP Ukhta Komi 41 — 2013.2015 294.3 km, 294.3 0.0 75.0 Mikun' Republic — 2x75 Mvar

42 OL 220 kV Petrozavodsk — Suoyarvi Karelia 2017 104 km 104.0 0.0 0.0

Komi 43 OL 220 kV Mikun — Zaovrazh'e Republic, 2018 250 km 250.0 0.0 0.0 Arkhangelsk

Facilities of renovation with increasing of transformer capacity 0.0 1,621.0 0.0

330 kV 0.0 775.0 0.0

Reconstruction of SS 330 kV Tikhvin — 1x125 MVA, 44 Liteiny (replacement of AT and installation Leningrad 2017 2x200 MVA, 0.0 775.0 0.0 of the 2d AT 330/110 kV 200 MVA) 250 MVA

220 kV 0.0 846.0 0.0

Reconstruction of SS 220 kV Drevlyanka 45 (№2) (replacement of AT with increasing Karelia 2016 2x200 MVA 0.0 400.0 0.0 of capacity)

Reconstruction of SS 220 kV 46 Medvezh'egorsk (replacement of AT with Karelia 2016 2x63 MVA 0.0 126.0 0.0 increasing of capacity)

Complex reconstruction of SS 220 kV 47 Pargolovo (replacement of transformer Leningrad 2019 2x80 MVA 0.0 160.0 0.0 equipment 2x25 MVA with 2x80 MVA)

Reconstruction of SS 220 kV Usinskaya Komi 48 (replacement of AT with increasing of 2017 2x80 MVA 0.0 160.0 0.0 Republic capacity)

TOTAL, including 3,646.2 14,621.0 2,955.0

750 kV 582.5 1,000.0 1,650.0

330 kV 2,198.2 7,765.0 1,230.0

±300 kV 128.0 4,860.0 0.0

220 kV 737.5 996.0 75.0

80 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

12,725.9 54.1 173.0 6,140.7 6,358.1

2,887.7 0.0 0.0 46.1 163.8

17,778.2 2,062.3 2,583.3 2,801.2 3,029.3

11,649.0 2,062.3 2,531.7 2,003.6 0.0

2,318.5 0.0 21.6 767.6 1,529.3

3,810.7 0.0 30.0 30.0 1,500.0

4,683.4 0.0 144.2 1,063.8 2,741.4

2,014.1 0.0 144.2 887.2 982.7

2,014.1 0.0 144.2 887.2 982.7

2,669.3 0.0 0.0 176.6 1,758.7

740.1 0.0 0.0 69.1 671.0

753.2 0.0 0.0 69.1 684.1

734.0 0.0 0.0 0.0 0.0

442.0 0.0 0.0 38.4 403.6

262,315.9 10,478.6 31,752.1 74,995.6 85,601.1

48,377.5 2,098.4 4,614.3 14,780.9 8,189.2

149,014.3 5,717.4 12,574.7 40,672.3 57,423.7

41,224.4 0.0 11,951.0 15,351.8 13,921.6

23,699.7 2,662.8 2,612.1 4,190.6 6,066.6

한국전기산업연구원 81 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Construction of two CL 330 kV 2x20 km, 39 Pulkovskaya Zapadnaya with installation Leningrad 2017 0.0 — 100 Mvar of SR 330 kV at SS 330 kV Zapadnaya

SS 330 kV Western Rapid Diameter 2x200 MVA, 40 Leningrad 2019 1,751.1 (WRD) 2x0.3 km

220 kV 2,250.7 252.8 km, OL 220 kV Pechyorskaya SDPP Ukhta Komi 41 — 2013.2015 294.3 km, 0.0 Mikun' Republic — 2x75 Mvar

42 OL 220 kV Petrozavodsk — Suoyarvi Karelia 2017 104 km 0.0

Komi 43 OL 220 kV Mikun — Zaovrazh'e Republic, 2018 250 km 2,250.7 Arkhangelsk

Facilities of renovation with increasing of transformer capacity 165.5

330 kV 0.0

Reconstruction of SS 330 kV Tikhvin — 1x125 MVA, 44 Liteiny (replacement of AT and installation Leningrad 2017 2x200 MVA, 0.0 of the 2d AT 330/110 kV 200 MVA) 250 MVA

220 kV 165.5

Reconstruction of SS 220 kV Drevlyanka 45 (№2) (replacement of AT with increasing Karelia 2016 2x200 MVA 0.0 of capacity)

Reconstruction of SS 220 kV 46 Medvezh'egorsk (replacement of AT with Karelia 2016 2x63 MVA 0.0 increasing of capacity)

Complex reconstruction of SS 220 kV 47 Pargolovo (replacement of transformer Leningrad 2019 2x80 MVA 165.5 equipment 2x25 MVA with 2x80 MVA)

Reconstruction of SS 220 kV Usinskaya Komi 48 (replacement of AT with increasing of 2017 2x80 MVA 0.0 Republic capacity)

TOTAL, including 30,938.4

750 kV 8,900.9

330 kV 19,621.3

±300 kV 0.0

220 kV 2,416.2

82 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 12,725.9 JSC «FGC UES» -

926.7 2,887.7 JSC «FGC UES» -

0.0 12,726.8

0.0 6,597.6 JSC «FGC UES» C

0.0 2,318.5 JSC «FGC UES» -

0.0 3,810.7 JSC «FGC UES» P

561.6 4,676.5

0.0 2,014.1

0.0 2,014.1 JSC «FGC UES» -

561.6 2,662.4

0.0 740.1 JSC «FGC UES» P

0.0 753.2 JSC «FGC UES» P

561.6 727.1 JSC «FGC UES» P

0.0 442.0 JSC «FGC UES» -

11,932.9 245,698.7

9,793.8 48,377.5

1,577.5 137,586.9

0.0 41,224.4

561.6 18,509.9

* Comment. Equipment that sited in the territory of electric power plants does not included In the cost of facilities.

한국전기산업연구원 83 러시아 에너지시스템 시장 현황

나. UPS of Center(without Moscow UPS of PS)

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 524.7 1,026.0 180.0 NPP 363.7 1,026.0 180.0 500 kV 229.4 501.0 180.0 OL 500 kV Donskaya NPP (NVNPP-2) — Voronezh, 229.4 km, 1 Eletskaya (Borino) with reconstruction of 2014 229.4 180.0 SR-180 SS 500 kV Eletskaya (Borino) Lipetsk AT for communication 1 at NVNPP-2 AT 2 № Voronezh 2014 501 MVA 501.0 500/220 kV

OL 500 kV Donskaya NPP (NVNPP-2) — Voronezh, 3 Staryi Oskol №2 with reconstruction of SS 2015 92 km 500 kV Staryi Oskol Belgorod AT for communication 2 at NVNPP-2 AT 4 № Voronezh 2015 501 MVA 500/220 kV

220 kV 134.3 525.0 0.0 OL 220 kV Novovoronezhskaya NPP-2 125 km, 125 5 — Voronezh 2014 125.0 125.0 Buturlinovka with SS 220 kV Buturlinovka MVA CL 1 220 kV Novaya Promzona and № — 2x4.65 km, 6 CL 2 220 kV Novaya Promzona with Voronezh 2014 9.3 400.0 № — 2x200 MVA SS 220 kV Promzona

TPP 161.0 0.0 0.0 220 kV 161.0 0.0 0.0

Reconstruction of OL 220 kV Yaroslavskaya — Tutaev, OL 220 kV Yaroslavskaya — 2x12 km, 7 Yaroslavl 2014 70.0 Tveritskaya. Approaches to CCGT (combined 2x23 km cycle gas turbine) Unit — CHPP in Yaroslavl city (Khuadyan'-Troitskaya CHPP)

ConstructionofOL220kVCherepovetskayaSD PP — CSP-2 (control and switching point) (the 2d OL) with the enlargement of 55.4 km, 8 SWYD 220 kV CSP-2 and OL 220 kV Vologda 2014 91.0 35.6 km Cherepovetskaya SDPP — Cherepovetskaya with the reconstruction of SWYD 220 kV SS 500 kV

Providing the opportunity of hooking up new consumers, and also implementation of 29.0 410.0 0.0 technical specifications 500 kV 0.0 250.0 0.0 Construction of SS 500 kV Obninskaya, AT group 500/220 kV, with approaches of 6x167 MVA, 9 Kaluga 2015 OL 750 kV Smolenskaya NPP — 2x50 km Kaluzhskaya (including 500 kV)

10 Two OL 220 kV Obninsk — Sozvezdie Kaluga 2015 2x20 km

Installation of the 3rd AT 500/110 kV 250 MVA at SS 500 kV Staryi Oskol. 11 Belgorod 2014 250 MVA 250.0 Reconstruction of SWYD 110 kV SS 500 kV Staryi Oskol

84 Russian Energy Systems Market Research 부록 1

Physical quantities

2014 2015 2016 2017 2018

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

92.0 501.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 92.0 501.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 92.0 501.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

92.0

501.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

145.2 2,117.0 0.0 0.0 400.0 0.0 10.0 200.0 0.0 0.0 0.0 0.0 0.0 200.0 0.0

140.0 1,002.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

100.0 1,002.0

40.0

한국전기산업연구원 85 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 616.7 1,527.0 180.0 NPP 455.7 1,527.0 180.0 500 kV 321.4 1,002.0 180.0 OL 500 kV Donskaya NPP (NVNPP-2) — Voronezh, 229.4 km, 1 Eletskaya (Borino) with reconstruction of 2014 229.4 0.0 180.0 SR-180 SS 500 kV Eletskaya (Borino) Lipetsk

AT for communication 1 at NVNPP-2 2 № Voronezh 2014 501 MVA 0.0 501.0 0.0 AT 500/220 kV

OL 500 kV Donskaya NPP (NVNPP-2) — Voronezh, 3 Staryi Oskol №2 with reconstruction of 2015 92 km 92.0 0.0 0.0 SS 500 kV Staryi Oskol Belgorod

AT for communication 2 at NVNPP-2 4 № Voronezh 2015 501 MVA 0.0 501.0 0.0 AT 500/220 kV

220 kV 134.3 525.0 0.0 OL 220 kV Novovoronezhskaya NPP-2 125 km, 5 — Voronezh 2014 125.0 125.0 0.0 Buturlinovka with SS 220 kV Buturlinovka 125 MVA CL 1 220 kV Novaya Promzona and № — 2x4.65 km, 6 CL 2 220 kV Novaya Promzona Voronezh 2014 9.3 400.0 0.0 № — 2x200 MVA with SS 220 kV Promzona TPP 161.0 0.0 0.0 220 kV 161.0 0.0 0.0 Reconstruction of OL 220 kV Yaroslavskaya — Tutaev, OL 220 kV Yaroslavskaya Tveritskaya. Approaches 2x12 km, 7 — Yaroslavl 2014 70.0 0.0 0.0 to CCGT (combined cycle gas turbine) 2x23 km Unit — CHPP in Yaroslavl city (Khuadyan'-Troitskaya CHPP)

ConstructionofOL220kVCherepovetskayaSD PP — CSP-2 (control and switching point) (the 2d OL) with the enlargement 55.4 km, 8 of SWYD 220 kV CSP-2 and OL 220 kV Vologda 2014 91.0 0.0 0.0 35.6 km Cherepovetskaya SDPP — Cherepovetskaya with the reconstruction of SWYD 220 kV SS 500 kV

Providing the opportunity of hooking up new consumers, and also implementation of 184.2 3,327.0 0.0 technical specifications

500 kV 140.0 1,252.0 0.0 Construction of SS 500 kV Obninskaya, AT group 500/220 kV, with approaches of 6x167 MVA, 9 Kaluga 2015 100.0 1,002.0 0.0 OL 750 kV Smolenskaya NPP — 2x50 km Kaluzhskaya (including 500 kV)

10 Two OL 220 kV Obninsk — Sozvezdie Kaluga 2015 2x20 km 40.0 0.0 0.0

Installation of the 3rd AT 500/110 kV 250 MVA at SS 500 kV Staryi Oskol. 11 Belgorod 2014 250 MVA 0.0 250.0 0.0 Reconstruction of SWYD 110 kV SS 500 kV Staryi Oskol

86 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

18,683.0 3,763.0 12,419.0 0.0 0.0 16,868.0 2,412.0 12,419.0 0.0 0.0 11,772.0 2,056.0 8,643.0 0.0 0.0

8,623.0 1,960.0 5,800.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

3,149.0 96.0 2,843.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

5,096.0 356.0 3,776.0 0.0 0.0 2,290.0 128.0 1,688.0 0.0 0.0

2,806.0 228.0 2,088.0 0.0 0.0

1,815.0 1,351.0 0.0 0.0 0.0 1,815.0 1,351.0 0.0 0.0 0.0

698.0 635.0 0.0 0.0 0.0

1,117.0 716.0 0.0 0.0 0.0

22,494.0 6,461.0 10,437.0 1,609.0 1,255.0

10,115.0 3,792.0 5,789.0 0.0 0.0

8,247.0 3,113.0 4,881.0 0.0 0.0

806.0 135.0 663.0 0.0 0.0

1,062.0 544.0 245.0 0.0 0.0

한국전기산업연구원 87 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 0.0 NPP 0.0 500 kV 0.0 OL 500 kV Donskaya NPP (NVNPP-2) — Voronezh, 229.4 km, 1 Eletskaya (Borino) with reconstruction of 2014 0.0 Lipetsk SR-180 SS 500 kV Eletskaya (Borino)

AT for communication 1 at NVNPP-2 AT 2 № Voronezh 2014 501 MVA 0.0 500/220 kV

OL 500 kV Donskaya NPP (NVNPP-2) — Voronezh, 3 Staryi Oskol 2 with reconstruction of SS 2015 92 km 0.0 № Belgorod 500 kV Staryi Oskol

AT for communication 2 at NVNPP-2 AT 4 № Voronezh 2015 501 MVA 0.0 500/220 kV

220 kV 0.0 OL 220 kV Novovoronezhskaya NPP-2 125 km, 125 5 — Voronezh 2014 0.0 Buturlinovka with SS 220 kV Buturlinovka MVA

CL 1 220 kV Novaya Promzona and № — 2x4.65 km, 6 CL 2 220 kV Novaya Promzona with Voronezh 2014 0.0 № — 2x200 MVA SS 220 kV Promzona

TPP 0.0 220 kV 0.0 Reconstruction of OL 220 kV Yaroslavskaya — Tutaev, OL 220 kV Yaroslavskaya Tveritskaya. Approaches 2x12 km, 7 — Yaroslavl 2014 0.0 to CCGT (combined cycle gas turbine) 2x23 km Unit — CHPP in Yaroslavl city (Khuadyan'-Troitskaya CHPP)

ConstructionofOL220kVCherepovetskayaSD PP — CSP-2 (control and switching point) (the 2d OL) with the enlargement of 55.4 km, 8 SWYD 220 kV CSP-2 and OL 220 kV Vologda 2014 0.0 35.6 km Cherepovetskaya SDPP — Cherepovetskaya with the reconstruction of SWYD 220 kV SS 500 kV

Providing the opportunity of hooking up new consumers, and also implementation of technical 700.0 specifications 500 kV 0.0 Construction of SS 500 kV Obninskaya, AT group 500/220 kV, with approaches of 6x167 MVA, 9 Kaluga 2015 0.0 OL 750 kV Smolenskaya NPP — 2x50 km Kaluzhskaya (including 500 kV)

10 Two OL 220 kV Obninsk — Sozvezdie Kaluga 2015 2x20 km 0.0 Installation of the 3rd AT 500/110 kV 250 MVA at SS 500 kV Staryi Oskol. 11 Belgorod 2014 250 MVA 0.0 Reconstruction of SWYD 110 kV SS 500 kV Staryi Oskol

88 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Totla development)

mln RUB mln RUB

0.0 16,182.0 0.0 14,831.0 0.0 10,699.0

0.0 7,760.0 JSC «FGC UES» С

0.0 0.0 JSC «Rosatom»

0.0 2,939.0 JSC «FGC UES» P

0.0 0.0 JSC «Rosatom»

0.0 4,132.0

0.0 1,816.0 JSC «FGC UES» C

0.0 2,316.0 JSC «FGC UES» C

0.0 1,351.0 0.0 1,351.0

0.0 635.0 JSC «FGC UES» P

0.0 716.0 JSC «FGC UES» P

935.0 21,397.0

0.0 9,581.0

0.0 7,994.0 JSC «FGC UES» P

0.0 798.0 JSC «FGC UES» P

0.0 789.0 JSC «FGC UES» P

한국전기산업연구원 89 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) 330 kV 250.0 Enlargement of SS 330 kV Lebedi, AT 12 Belgorod 2016 2x200 MVA 0.0 0.0 0.0 330/110 kV

Installation of the 3rd AT 330/110 kV at 13 Belgorod 2015 200 MVA SS 330 kV Gubkin

SS 330 kV Tver AT 330/110 kV with 200 MVA, 14 approaches of OL 330 kV Konakovskaya Tver 2017 2x5 km SDPP — Kalininskaya

220kV Installation of the AT 220/35 kV at SS 220 15 Kaluga 2015 1x180 MVA 29.0 160.0 0.0 kV Metzavod

Installation of the 3rd AT 220/110 kV at 16 Tula 2015 200 MVA SS 220 kV Khimicheskaya

17 OL 220 kV Pravoberezhnaya — Borino Lipetsk 2014 12 km

18 SS 220 kV Sozvezdie, installation of AT-2 250 MVA 12.0

Construction of approaches of OL 220 kV Kaluga 2012.2015 Kaluzhskaya — Metzavod (Latyshskaya) to SS 220 kV Sozvezdie; construction of 19 4x2.5 km approaches of OL 220 kV Mirnaya — Metzavod (Kedrovo) to SS 220 kV Sozvezdie

SS 220 kV Dobrino with approaches of 2x40 MVA, 20 Kaluga 2015 OL 220 kV Mirnaya — Metzavod 2x0.1 km

21 SS 220 kV Selezni 2x40MVA

Reconstruction of OL Tambovskaya — 22 Michurinskaya and construction of 2x3 km 80.0 approaches to SS 220 kV Selezni Tambov 2014

23 SS 220 kV Turmasovo 2x40MVA 6.0

Reconstruction of OL Michurinskaya — 24 Ilovayskaya and construction of 2x5.5 km 80.0 approaches to SS 220 kV Turmasovo

25 SS 220 kV Kalais Tambov 2015 2x40MVA 11.0

Enlargement of SS 220 kV Mashzavod with 26 Bryansk 2015 125 MVA installation of the 2d AT 220/110/10 kV

SS 220 kV Novaya Tula (technical parameters should be specified after 27 Tula 2019 200 MVA working out of local Schemes of development)

90 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 200.0 0.0 0.0 400.0 0.0 10.0 200.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

400.0

200.0

10.0 200.0

5.2 915.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 200.0 0.0

180.0

200.0

250.0

5.0

0.2 80.0

80.0

125.0

200.0

한국전기산업연구원 91 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) 330 kV 10.0 800.0 0.0 Enlargement of SS 330 kV Lebedi, AT 12 Belgorod 2016 2x200 MVA 0.0 400.0 0.0 330/110 kV

Installation of the 3rd AT 330/110 kV at 13 Belgorod 2015 200 MVA 0.0 200.0 0.0 SS 330 kV Gubkin SS 330 kV Tver AT 330/110 kV with 200 MVA, 14 approaches of OL 330 kV Konakovskaya Tver 2017 10.0 200.0 0.0 2x5 km SDPP — Kalininskaya 220kV 34.2 1,275.0 0.0 Installation of the AT 220/35 kV at SS 220 15 Kaluga 2015 1x180 MVA 0.0 180.0 0.0 kV Metzavod

Installation of the 3rd AT 220/110 kV at 16 Tula 2015 200 MVA 0.0 200.0 0.0 SS 220 kV Khimicheskaya

17 OL 220 kV Pravoberezhnaya — Borino Lipetsk 2014 12 km 12.0 0.0 0.0

18 SS 220 kV Sozvezdie, installation of AT-2 250 MVA 0.0 250.0 0.0

Construction of approaches of OL 220 kV Kaluzhskaya — Metzavod (Latyshskaya) to Kaluga 2012.2015 SS 220 kV Sozvezdie; construction of 19 4x2.5 km 5.0 0.0 0.0 approaches of OL 220 kV Mirnaya — Metzavod (Kedrovo) to SS 220 kV Sozvezdie

SS 220 kV Dobrino with approaches of 2x40 MVA, 20 Kaluga 2015 0.2 80.0 0.0 OL 220 kV Mirnaya — Metzavod 2x0.1 km

21 SS 220 kV Selezni 2x40MVA 0.0 80.0 0.0

Reconstruction of OL Tambovskaya — 22 Michurinskaya and construction of 2x3 km 6.0 0.0 0.0 approaches to SS 220 kV Selezni Tambov 2014 23 SS 220 kV Turmasovo 2x40MVA 0.0 80.0 0.0

Reconstruction of OL Michurinskaya — 24 Ilovayskaya and construction of 2x5.5 km 11.0 0.0 0.0 approaches to SS 220 kV Turmasovo

25 SS 220 kV Kalais Tambov 2015 2x40MVA 0.0 80.0 0.0

Enlargement of SS 220 kV Mashzavod with 26 Bryansk 2015 125 MVA 0.0 125.0 0.0 installation of the 2d AT 220/110/10 kV

SS 220 kV Novaya Tula (technical parameters should be specified after 27 Tula 2019 200 MVA 0.0 200.0 0.0 working out of local Schemes of development)

92 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

4,241.0 4,241.0 135.0 1,380.0 1,609.0

1,418.0 1,418.0 0.0 577.0 841.0

779.0 779.0 135.0 644.0 0.0

2,044.0 2,044.0 0.0 159.0 768.0

8,138.0 8,138.0 2,534.0 3,268.0 0.0

323.0 323.0 0.0 323.0 0.0

501.0 501.0 0.0 501.0 0.0

526.0 526.0 518.0 0.0 0.0

674.0 674.0 0.0 674.0 0.0

81.0 81.0 9.0 30.0 0.0

911.0 911.0 271.0 640.0 0.0

821.0 821.0 568.0 0.0 0.0

75.0 75.0 68.0 4.0 0.0

821.0 821.0 568.0 0.0 0.0

138.0 138.0 126.0 8.0 0.0

876.0 876.0 271.0 605.0 0.0

618.0 618.0 135.0 483.0 0.0

1,773.0 1,773.0 0.0 0.0 0.0

한국전기산업연구원 93 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) 330 kV 0.0 Enlargement of SS 330 kV Lebedi, AT 12 Belgorod 2016 2x200 MVA 0.0 330/110 kV

Installation of the 3rd AT 330/110 kV at 13 Belgorod 2015 200 MVA 0.0 SS 330 kV Gubkin

SS 330 kV Tver AT 330/110 kV with 200 MVA, 14 approaches of OL 330 kV Konakovskaya Tver 2017 0.0 2x5 km SDPP — Kalininskaya

220kV 700.0

Installation of the AT 220/35 kV at SS 220 15 Kaluga 2015 1x180 MVA 0.0 kV Metzavod

Installation of the 3rd AT 220/110 kV at 16 Tula 2015 200 MVA 0.0 SS 220 kV Khimicheskaya

17 OL 220 kV Pravoberezhnaya — Borino Lipetsk 2014 12 km 0.0

18 SS 220 kV Sozvezdie, installation of AT-2 250 MVA 0.0

Construction of approaches of OL 220 kV Kaluzhskaya — Metzavod (Latyshskaya) to Kaluga 2012.2015 SS 220 kV Sozvezdie; construction of 19 4x2.5 km 0.0 approaches of OL 220 kV Mirnaya — Metzavod (Kedrovo) to SS 220 kV Sozvezdie

SS 220 kV Dobrino with approaches of 2x40 MVA, 20 Kaluga 2015 0.0 OL 220 kV Mirnaya — Metzavod 2x0.1 km

21 SS 220 kV Selezni 2x40MVA 0.0

Reconstruction of OL Tambovskaya — 22 Michurinskaya and construction of 2x3 km 0.0 approaches to SS 220 kV Selezni Tambov 2014 23 SS 220 kV Turmasovo 2x40MVA 0.0

Reconstruction of OL Michurinskaya — 24 Ilovayskaya and construction of 2x5.5 km 0.0 approaches to SS 220 kV Turmasovo

25 SS 220 kV Kalais Tambov 2015 2x40MVA 0.0

Enlargement of SS 220 kV Mashzavod with 26 Bryansk 2015 125 MVA 0.0 installation of the 2d AT 220/110/10 kV

SS 220 kV Novaya Tula (technical parameters should be specified after 27 Tula 2019 200 MVA 700.0 working out of local Schemes of development)

94 Russian Energy Systems Market Research 부록 1

Capital investments (money Capital investments (money of the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2018 2019 development)

mln RUB mln RUB

0.0 4,241.0

0.0 1,418.0 Investor

0.0 779.0 JSC «FGC UES»

0.0 2,044.0 JSC «FGC UES» P

935.0 7,575.0

0.0 323.0 Investor

0.0 501.0 JSC «FGC UES»

0.0 518.0 JSC «FGC UES» P

0.0 674.0 IDGC

0.0 39.0 JSC «FGC UES» C

0.0 911.0 Investor

0.0 568.0 Investor

0.0 72.0 JSC «FGC UES» P

0.0 568.0 Investor

0.0 134.0 JSC «FGC UES» P

0.0 876.0 JSC «FGC UES» P

0.0 618.0 JSC «FGC UES»

935.0 1,773.0 JSC «FGC UES»

한국전기산업연구원 95 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 107.5 668.0 0.0 power supply to existing consumers

500 kV 3.2 668.0 0.0 Construction of SS 500 kV 4x167 MVA, 28 Beloberezhskaya with approaches of OL Bryansk 2014 3.2 668.0 3.15 km 500 kV Novobryanskaya — Eletskaya

OL 220 kV Beloberezhskaya — Tsementnaya, OL 220 kV Beloberezhskaya OL-104 km, 29 104.4 — Mashzavod and OL 220 kV CL-0.35 km Beloberezhskaya — Bryanskaya Installation of the AT group 500/220 kV at SS 500 kV Beloberezhskaya and 2x167 MVA, 30 Bryansk 2018 construction of OL 220 kV 71.4 km Beloberezhskaya — Bryanskaya Branch of OL 500 kV Novovoronezhskaya 31 NPP — Lipetskaya (liquidation of Lipetsk 2019 30 km «T-connector»)

330 kV 0.0 0.0 0.0 Enlargement of SS 330 kV 32 Kursk 2017 250 MVA Zheleznogorskaya AT №3 330/220 kV

220 kV 104.4 0.0 0.0 OL 220 kV Gribovo Pobeda and — Tver, 33 reconstruction of SWYD 220 kV SS 2018 140 km Moscow Pobeda

Installation of the SCB (static capacitor 34 Oryol 2015 2x25 Mvar bank) at SS 220 kV Livny

OL 220 kV Naytopovichi — Novozybkov with the enlargement of SS 110 kV Novozybkov and SS 220 kV Naytopovichi 60 km, 2x26 35 Bryansk 2018 (the 1st construction stage — one chain Mvar of OL in 220 kV limits with its energizing to carry 110 kV)

Smolensk, 36 OL 220 kV Vostok Drovnino 2015 110 km — Moscow

2x175 MVA (is PSD (phase shifter devices) at SS 750 kV 37 Bryansk 2019 specified by Novobryanskaya the project)

38 OL 220 kV Buturlinovka — Pridonskaya Voronezh 2018 100 km

96 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

110.0 0.0 50.0 0.0 0.0 0.0 0.0 250.0 0.0 371.4 334.0 52.0 30.0 350.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 334.0 0.0 30.0 0.0 0.0

71.4 334.0

30.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 250.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

250.0

110.0 0.0 50.0 0.0 0.0 0.0 0.0 0.0 0.0 371.4 0.0 52.0 0.0 350.0 0.0

140.0

50.0

60.0 52.0

110.0

350.0

100.0

한국전기산업연구원 97 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 618.9 1,602.0 102.0 power supply to existing consumers

500 kV 208.9 1,002.0 0.0

Construction of SS 500 kV 4x167 MVA, 28 Beloberezhskaya with approaches of OL Bryansk 2014 3.2 668.0 0.0 3.15 km 500 kV Novobryanskaya — Eletskaya

OL 220 kV Beloberezhskaya — Tsementnaya, OL 220 kV Beloberezhskaya OL-104 km, 29 104.4 0.0 0.0 — Mashzavod and OL 220 kV CL-0.35 km Beloberezhskaya — Bryanskaya

Installation of the AT group 500/220 kV at SS 500 kV Beloberezhskaya and 2x167 MVA, 30 Bryansk 2018 71.4 334.0 0.0 construction of OL 220 kV 71.4 km Beloberezhskaya — Bryanskaya

Branch of OL 500 kV Novovoronezhskaya 31 NPP — Lipetskaya (liquidation of Lipetsk 2019 30 km 30.0 0.0 0.0 «T-connector»)

330 kV 0.0 250.0 0.0 Enlargement of SS 330 kV 32 Kursk 2017 250 MVA 0.0 250.0 0.0 Zheleznogorskaya AT №3 330/220 kV

220 kV 410.0 350.0 102.0 OL 220 kV Gribovo Pobeda and — Tver, 33 reconstruction of SWYD 220 kV SS 2018 140 km 140.0 0.0 0.0 Moscow Pobeda

Installation of the SCB (static capacitor 34 Oryol 2015 2x25 Mvar 0.0 0.0 50.0 bank) at SS 220 kV Livny

OL 220 kV Naytopovichi — Novozybkov with the enlargement of SS 110 kV Novozybkov and SS 220 kV Naytopovichi 60 km, 2x26 35 Bryansk 2018 60.0 0.0 52.0 (the 1st construction stage — one chain Mvar of OL in 220 kV limits with its energizing to carry 110 kV)

Smolensk, 36 OL 220 kV Vostok Drovnino 2015 110 km 110.0 0.0 0.0 — Moscow

2x175 MVA (is PSD (phase shifter devices) at SS 750 kV 37 Bryansk 2019 specified by 0.0 350.0 0.0 Novobryanskaya the project)

38 OL 220 kV Buturlinovka — Pridonskaya Voronezh 2018 100 km 100.0 0.0 0.0

98 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

21,306.0 1,791.0 1,122.0 6,168.0 3,704.0

11,400.0 990.0 300.0 5,542.0 819.0

7,269.0 990.0 300.0 5,388.0 0.0

0.0 0.0 0.0 0.0 0.0

2,157.0 0.0 0.0 154.0 819.0

1,974.0 0.0 0.0 0.0 0.0

833.0 0.0 0.0 77.0 756.0

833.0 0.0 0.0 77.0 756.0

9,073.0 801.0 822.0 549.0 2,129.0

3,016.0 0.0 0.0 154.0 1,310.0

119.0 0.0 119.0 0.0 0.0

1,206.0 0.0 0.0 0.0 164.0

1,773.0 801.0 703.0 257.0 0.0

1,104.0 0.0 0.0 0.0 0.0

1,855.0 0.0 0.0 138.0 655.0

한국전기산업연구원 99 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 5,068.0 power supply to existing consumers

500 kV 1,307.0 Construction of SS 500 kV 4x167 MVA, 28 Beloberezhskaya with approaches of OL Bryansk 2014 0.0 3.15 km 500 kV Novobryanskaya — Eletskaya

OL 220 kV Beloberezhskaya — Tsementnaya, OL 220 kV Beloberezhskaya OL-104 km, 29 0.0 — Mashzavod and OL 220 kV CL-0.35 km Beloberezhskaya — Bryanskaya Installation of the AT group 500/220 kV at SS 500 kV Beloberezhskaya and 2x167 MVA, 30 Bryansk 2018 1,184.0 construction of OL 220 kV 71.4 km Beloberezhskaya — Bryanskaya Branch of OL 500 kV Novovoronezhskaya 31 NPP — Lipetskaya (liquidation of Lipetsk 2019 30 km 123.0 «T-connector»)

330 kV 0.0 Enlargement of SS 330 kV 32 Kursk 2017 250 MVA 0.0 Zheleznogorskaya AT №3 330/220 kV

220 kV 3,761.0 OL 220 kV Gribovo Pobeda and — Tver, 33 reconstruction of SWYD 220 kV SS 2018 140 km 1,552.0 Moscow Pobeda

Installation of the SCB (static capacitor 34 Oryol 2015 2x25 Mvar 0.0 bank) at SS 220 kV Livny

OL 220 kV Naytopovichi — Novozybkov with the enlargement of SS 110 kV Novozybkov and SS 220 kV Naytopovichi 60 km, 35 Bryansk 2018 1,042.0 (the 1st construction stage — one chain 2x26 Mvar of OL in 220 kV limits with its energizing to carry 110 kV)

Smolensk, 36 OL 220 kV Vostok Drovnino 2015 110 km 0.0 — Moscow

2x175 MVA (is PSD (phase shifter devices) at SS 750 kV 37 Bryansk 2019 specified by 105.0 Novobryanskaya the project)

38 OL 220 kV Buturlinovka — Pridonskaya Voronezh 2018 100 km 1,062.0

100 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

2,850.0 20,703.0

1,851.0 10,809.0

0.0 6,678.0

JSC «FGC UES» P

0.0 0.0

0.0 2,157.0 JSC «FGC UES»

1,851.0 1,974.0 JSC «FGC UES»

0.0 833.0

0.0 833.0 JSC «FGC UES» P

999.0 9,061.0

0.0 3,016.0 JSC «FGC UES» P

0.0 119.0 JSC «FGC UES»

0.0 1,206.0 JSC «FGC UES» P

0.0 1,761.0 JSC «FGC UES» P

999.0 1,104.0 JSC «FGC UES» P

0.0 1,855.0 JSC «FGC UES»

한국전기산업연구원 101 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

Facilities of renovation with increasing of transformer capacity 0.0 1,429.0 0.0

330 kV 0.0 1,139.0 0.0

2x200 + 39 SS 330 kV Gubkin Belgorod 2014 589.0 3x63 MVA

2x250 + 40 SS 330 kV Belgorod Belgorod 2014 550.0 2x25 MVA

220 kV 0.0 290.0 0.0

41 SS 220 kV Yamskaya Ryazan 2014.2015 2x250 + 290.0 2x40 MVA

42 SS 220 kV Orbita Kaluga 2015 2x200 MVA

43 SS 220 kV Bryanskaya Bryansk 2018 2x250 MVA

2x250 + 44 SS 220 kV Kostroma-2 Kostroma 2019 2x200 MVA

45 SS 220 kV Tambovskaya-4 Tambov 2019 2x250 + 2x40 MVA

46 SS 220 kV Severnaya (Tula) Tula 2015 2x200 MVA

2x250 + 2x40 47 SS 220 kV Yuzhnaya (Voronezh) Voronezh 2015 MVA + 54.5 + 10 Mvar

SS 220 kV Latnaya (reconstruction with 48 replacement of AT-2 125 MVA) Voronezh 2017 200 MVA

Facilities of renovation with increasing of transformer capacity 661.2 3,533.0 180.0

500 kV 232.6 1,419.0

330 kV 0.0 1,139.0

220 kV 428.7 975.0

102 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 1,670.0 64.5 0.0 0.0 0.0 0.0 200.0 0.0 0.0 500.0 0.0 0.0 1,480.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 1,670.0 64.5 0.0 0.0 0.0 0.0 200.0 0.0 0.0 500.0 0.0 0.0 1,480.0 0.0

290.0

400.0

500.0

900.0

580.0

400.0

580.0 64.5

200.0

347.2 4,288.0 114.5 0.0 400.0 0.0 10.0 650.0 0.0 371.4 834.0 52.0 30.0 2,030.0 0.0

232.0 1,503.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 334.0 0.0 30.0 0.0 0.0

0.0 200.0 0.0 0.0 400.0 0.0 10.0 450.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

Comment. Equipment that sited in the territory of electric power plants does not included In the cost of facilities.

한국전기산업연구원 103 러시아 에너지시스템 시장 현황

다. Moscow PS

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 82.6 400.0 0.0

HPP 0.0 0.0 0.0 500kV 0.0 0.0 0.0 160 km, 1 OL 500 kV Dorokhovo SS Panino Moscow 2015 — SR 180

2 The 2d OL 500 kV Gribovo — Dorokhovo Moscow 2015 85 km SS 500 kV Panino with approaches of OL 500 kV Chagino SS Ozherelje 3 — Moscow 2015 4x10 km (Mikhailovskaya) and OL 500 kV Kashirskaya SDPP — Pakhra PSPP 0.0 0.0 0.0 500 kV 0.0 0.0 0.0 4 OL 500 kV ZaPSPP-2 — Turbino Moscow 2015 90 km TPP 82.6 400.0 0.0 220 kV 82.6 400.0 0.0 Two CL 220 kV CHPP-12 5 — 2x2 km 4.0 Zolotaryovskaya Moscow 2014 6 Two CL 220 kV Presnya — CHPP-12 2x2 km 4.0

Approaches of CL 220 kV Vagankovskaya 7 Moscow 2014 4x2.64 km 10.6 — Mneviki 1, 2 to CHPP-16

Construction of SP (switching point) 220 kV at CHPP-17 with approaches of OL 2x200 MVA 400.0 8 220 kV Kashira — Oka 1, 2 (in view of Moscow 2014 the decommissioning of turbogenerator at CHPP-17 in 2014) 4x15 km 60.0

Construction of cable approaches of COL 2x1 km 2.0 220 kV Rudnevo CHPP-23 and OL 220 9 — Moscow 2014 kV Rudnevo — Vostochnaya to GTPP (gas turbine power plant) Kozhukhovo 2x1 km 2.0

Providing the opportunity of hooking up new consumers, and also implementation of 124.4 3,006.0 0.0 technical specifications

500 kV 0.0 0.0 0.0 SS 500 kV Sof'ino with approaches of OL 2x501 MVA, 10 Moscow 2019 500 kV Dorokhovo — Panino 2x0.5 km

220 kV 124.4 3,006.0 0.0 3x100 MVA 300.0 SS 220/10 kV Bratovschina with two OL 11 Moscow 2014 220 kV Trubino — Bratovschina 1, 2 2x10 km 20.0

104 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

375.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

285.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 285.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

160.0 180.0

85.0

40.0

90.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 90.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 90.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

181.2 4,700.0 0.0 38.8 1,000.0 0.0 6.0 410.0 0.0 70.0 1,300.0 0.0 25.0 1,842.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1.0 1,002.0 0.0

1.0 1,002.0

181.2 4,700.0 0.0 38.8 1,000.0 0.0 6.0 410.0 0.0 70.0 1,300.0 0.0 24.0 840.0 0.0

한국전기산업연구원 105 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 457.6 400.0 180.0

HPP 285.0 0.0 180.0 500kV 285.0 0.0 180.0 160 km, 1 OL 500 kV Dorokhovo SS Panino Moscow 2015 160.0 0.0 180.0 — SR 180

2 The 2d OL 500 kV Gribovo — Dorokhovo Moscow 2015 85 km 85.0 0.0 0.0 SS 500 kV Panino with approaches of OL 500 kV Chagino SS Ozherelje 3 — Moscow 2015 4x10 km 40.0 0.0 0.0 (Mikhailovskaya) and OL 500 kV Kashirskaya SDPP — Pakhra

PSPP 90.0 0.0 0.0 500 kV 90.0 0.0 0.0 4 OL 500 kV ZaPSPP-2 — Turbino Moscow 2015 90 km 90.0 0.0 0.0 TPP 82.6 400.0 0.0 220 kV 82.6 400.0 0.0 Two CL 220 kV CHPP-12 5 — 2x2 km 4.0 0.0 0.0 Zolotaryovskaya Moscow 2014 6 Two CL 220 kV Presnya — CHPP-12 2x2 km 4.0 0.0 0.0

Approaches of CL 220 kV Vagankovskaya 7 Moscow 2014 4x2.64 km 10.6 0.0 0.0 — Mneviki 1, 2 to CHPP-16

Construction of SP (switching point) 220 kV at CHPP-17 with approaches of OL 2x200 MVA 0.0 400.0 0.0 8 220 kV Kashira — Oka 1, 2 (in view of Moscow 2014 the decommissioning of turbogenerator at CHPP-17 in 2014) 4x15 km 60.0 0.0 0.0

Construction of cable approaches of COL 2x1 km 2.0 0.0 0.0 220 kV Rudnevo CHPP-23 and OL 220 9 — Moscow 2014 kV Rudnevo — Vostochnaya to GTPP (gas turbine power plant) Kozhukhovo 2x1 km 2.0 0.0 0.0

Providing the opportunity of hooking up new consumers, and also implementation of 445.4 12,258.0 0.0 technical specifications 500 kV 1.0 1,002.0 0.0 SS 500 kV Sof'ino with approaches of OL 2x501 MVA, 10 Moscow 2019 1.0 1,002.0 0.0 500 kV Dorokhovo — Panino 2x0.5 km 220 kV 444.4 11,256.0 0.0 3x100 MVA 0.0 300.0 0.0 SS 220/10 kV Bratovschina with two OL 11 Moscow 2014 220 kV Trubino — Bratovschina 1, 2 2x10 km 20.0 0.0 0.0

106 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

28,063.8 3,787.6 4,462.1 14,745.5 0.0

18,055.8 0.0 4,264.2 12,251.8 0.0 18,055.8 0.0 4,264.2 12,251.8 0.0

9,361.1 0.0 0.0 7,917.4 0.0

4,334.4 0.0 0.0 4,334.4 0.0

4,360.3 0.0 4,264.2 0.0 0.0

3,380.0 394.8 197.9 2,493.7 0.0 3,380.0 394.8 197.9 2,493.7 0.0 3,380.0 394.8 197.9 2,493.7 0.0

6,628.0 3,392.8 0.0 0.0 0.0 6,628.0 3,392.8 0.0 0.0 0.0

1,020.1 214.2 0.0 0.0 0.0

1,020.1 214.2 0.0 0.0 0.0

2,055.0 431.6 0.0 0.0 0.0

1,262.4 1,262.4 0.0 0.0 0.0

750.2 750.2 0.0 0.0 0.0

260.1 260.1 0.0 0.0 0.0

260.1 260.1 0.0 0.0 0.0

103,490.1 20,902.0 29,190.3 11,157.8 7,114.9

2,020.0 0.0 0.0 0.0 505.0

2,020.0 0.0 0.0 0.0 505.0

101,470.1 20,902.0 29,190.3 11,157.8 6,609.9 1,279.7 1,279.7 0.0 0.0 0.0

426.2 426.2 0.0 0.0 0.0

한국전기산업연구원 107 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 0.0

HPP 0.0 500kV 0.0 160 km, 1 OL 500 kV Dorokhovo SS Panino Moscow 2015 0.0 — SR 180

2 The 2d OL 500 kV Gribovo — Dorokhovo Moscow 2015 85 km 0.0 SS 500 kV Panino with approaches of OL 500 kV Chagino SS Ozherelje 3 — Moscow 2015 4x10 km 0.0 (Mikhailovskaya) and OL 500 kV Kashirskaya SDPP — Pakhra PSPP 0.0 500 kV 0.0 4 OL 500 kV ZaPSPP-2 — Turbino Moscow 2015 90 km 0.0 TPP 0.0 220 kV 0.0 Two CL 220 kV CHPP-12 5 — 2x2 km 0.0 Zolotaryovskaya Moscow 2014 6 Two CL 220 kV Presnya — CHPP-12 2x2 km 0.0

Approaches of CL 220 kV Vagankovskaya 7 Moscow 2014 4x2.64 km 0.0 — Mneviki 1, 2 to CHPP-16

Construction of SP (switching point) 220 kV at CHPP-17 with approaches of OL 2x200 MVA 0.0 8 220 kV Kashira — Oka 1, 2 (in view of Moscow 2014 the decommissioning of turbogenerator at CHPP-17 in 2014) 4x15 km 0.0

Construction of cable approaches of COL 2x1 km 0.0 220 kV Rudnevo CHPP-23 and OL 220 9 — Moscow 2014 kV Rudnevo — Vostochnaya to GTPP (gas turbine power plant) Kozhukhovo 2x1 km 0.0

Providing the opportunity of hooking up new consumers, and also implementation of technical 11,832.5 specifications 500 kV 808.0 SS 500 kV Sof'ino with approaches of OL 2x501 MVA, 10 Moscow 2019 808.0 500 kV Dorokhovo — Panino 2x0.5 km 220 kV 11,024.5

3x100 MVA 0.0 SS 220/10 kV Bratovschina with two OL 11 Moscow 2014 220 kV Trubino Bratovschina 1, 2 — 2x10 km 0.0

108 Russian Energy Systems Market Research 부록 1

Capital investments (money Capital investments (money of the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 22,995.2 JSC «FGC UES»

0.0 16,516.0 JSC «FGC UES» 0.0 16,516.0 JSC «FGC UES»

0.0 7,917.4

0.0 4,334.4

0.0 4,264.2 JSC «FGC UES» P

0.0 3,086.4 0.0 3,086.4 0.0 3,086.4

0.0 3,392.8 0.0 3,392.8

0.0 214.2 JSC «Energokomplex» P 0.0 214.2

0.0 431.6 JSC «Energokomplex» P

0.0 1,262.4 Investor

0.0 750.2

0.0 260.1 JSC «MUEGC»

0.0 260.1

4,524.6 84,722.1

707.0 2,020.0

707.0 2,020.0 JSC «FGC UES» P

3,817.6 82,702.1

0.0 1,279.7 Investor 0.0 426.2

한국전기산업연구원 109 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

SS 220/10 kV Ershovo with approach of 2x200 MVA 400.0 12 one chain OL 220 kV Dorokhovo — Moscow 2014 Sloboda 2x1 km 2.0

SS 220/10 kV Kotlovka with approaches of 2x200 MVA 400.0 13 COL 220 kV CHPP-20 — Konkovo and Moscow 2014 CHPP-20 Akademicheskaya — 4x0.5 km 2.0

14 SS 220/20/10 kV Kozhevnicheskaya Moscow 2014 2x200 MVA 400.0

CL 220 kV CHPP-20 Kozhevnicheskaya 15 — Moscow 2014 2x5 km 10.0 1, 2

CL 220 kV Krasnoselskaya 16 — Moscow 2014 2x12.5 km 25.0 Kozhevnicheskaya 1, 2

SS 110/10 kV Avtozavodskaya 2x250 MVA, 17 Moscow 2014 160.0 (change-over to 220 kV) 2x80 MVA

CL 220 kV Avtozavodskaya Yuzhnaya 18 — Moscow 2014 2x5.7 km 11.4 1, 2

SS 220/20 kV Minskaya with approaches 2x160 MVA, 19 Moscow 2014 36.0 320.0 of CL 220 kV Ochakovo — Mnevniki 1, 2 4x9 km

SS 220 kV Devyatskaya with approaches 2x200 MVA 400.0 20 of OL 220 kV Pakhra — Lesnaya and Moscow 2014 Lesnaya Obraztsovo — 4x2 km 8.0

Construction of SS 220/10 kV Tarusovo 2x63 MVA, 21 with approaches of CL 220 kV Moscow 2014 4.0 126.0 2x2 km Khlebnikovo — CHPP-27

SS 220 kV Pod'yachevo (Filimonovo) with 2x200 MVA, 22 approach of OL 220 kV Shukolovo Moscow 2015 — 2x2.5 km Radischevo

23 SS 220/10 kV Nazar'evo Moscow 2015 2x100 MVA

Construction of approaches of OL 220 kV Radischevo — Luch and OL 220 kV 24 Moscow 2015 4x0.5 km Radischevo — Shmelevo to SS 220/10 kV Nazar'evo

SS 220/10(20) kV Avdot'ino (Konstantinovo) with approaches of OL 25 Moscow 2015 2x160MVA 220 kV Kashira — Pakhra and OL 220 kV Obraztsovo — Lesnaya SS 220/20(10) kV Vel'yaminovo with 4x2.5 km 26 approaches of OL 220 kV Kashira — Moscow 2015 Pakhra 2x125 MVA

110 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

5.0 400.0

200.0

2.0

320.0

10.0

250.0

한국전기산업연구원 111 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) SS 220/10 kV Ershovo with approach of 2x200 MVA 0.0 400.0 0.0 12 one chain OL 220 kV Dorokhovo — Moscow 2014 Sloboda 2x1 km 2.0 0.0 0.0

SS 220/10 kV Kotlovka with approaches of 2x200 MVA 0.0 400.0 0.0 13 COL 220 kV CHPP-20 — Konkovo and Moscow 2014 CHPP-20 — Akademicheskaya 4x0.5 km 2.0 0.0 0.0

14 SS 220/20/10 kV Kozhevnicheskaya Moscow 2014 2x200 MVA 0.0 400.0 0.0

CL 220 kV CHPP-20 Kozhevnicheskaya 15 — Moscow 2014 2x5 km 10.0 0.0 0.0 1, 2

CL 220 kV Krasnoselskaya 16 — Moscow 2014 2x12.5 km 25.0 0.0 0.0 Kozhevnicheskaya 1, 2

SS 110/10 kV Avtozavodskaya 2x250 MVA, 17 Moscow 2014 0.0 160.0 0.0 (change-over to 220 kV) 2x80 MVA

CL 220 kV Avtozavodskaya Yuzhnaya 18 — Moscow 2014 2x5.7 km 11.4 0.0 0.0 1, 2

SS 220/20 kV Minskaya with approaches 2x160 MVA, 19 Moscow 2014 36.0 320.0 0.0 of CL 220 kV Ochakovo — Mnevniki 1, 2 4x9 km

SS 220 kV Devyatskaya with approaches 2x200 MVA 0.0 400.0 0.0 20 of OL 220 kV Pakhra — Lesnaya and Moscow 2014 Lesnaya — Obraztsovo 4x2 km 8.0 0.0 0.0

Construction of SS 220/10 kV Tarusovo 2x63 MVA, 21 with approaches of CL 220 kV Moscow 2014 4.0 126.0 0.0 2x2 km Khlebnikovo — CHPP-27 SS 220 kV Pod'yachevo (Filimonovo) with 2x200 MVA, 22 approach of OL 220 kV Shukolovo Moscow 2015 5.0 400.0 0.0 — 2x2.5 km Radischevo

23 SS 220/10 kV Nazar'evo Moscow 2015 2x100 MVA 0.0 200.0 0.0

Construction of approaches of OL 220 kV Radischevo Luch and OL 220 kV 24 — Moscow 2015 4x0.5 km 2.0 0.0 0.0 Radischevo — Shmelevo to SS 220/10 kV Nazar'evo

SS 220/10(20) kV Avdot'ino (Konstantinovo) with approaches of OL 25 Moscow 2015 2x160MVA 0.0 320.0 0.0 220 kV Kashira — Pakhra and OL 220 kV Obraztsovo — Lesnaya

SS 220/20(10) kV Vel'yaminovo with 4x2.5 km 10.0 0.0 0.0 26 approaches of OL 220 kV Kashira — Moscow 2015 Pakhra 2x125 MVA 0.0 250.0 0.0

112 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

1,187.7 1,187.7 0.0 0.0 0.0

24.5 24.5 0.0 0.0 0.0

7,080.3 1,581.3 1,581.3 708.0 0.0

2,141.4 1,675.7 0.0 0.0 0.0

2,504.2 2,110.4 0.0 0.0 0.0

6,302.2 1,772.5 1,035.4 0.0 0.0

3,249.9 1,165.5 0.0 0.0 0.0

1,680.6 1,675.4 0.0 0.0 0.0

8,000.0 3,910.0 0.0 0.0 0.0

2,089.7 2,089.7 0.0 0.0 0.0

1,047.0 324.0 547.0 0.0 0.0

2,821.9 399.1 1,304.9 438.0 366.0

1,799.6 0.0 1,799.6 0.0 0.0

702.4 324.0 202.4 0.0 0.0

1,428.5 0.0 1,428.5 0.0 0.0

106.4 0.0 106.4 0.0 0.0

1,134.2 0.0 1,134.2 0.0 0.0

66.8 0.0 66.8 0.0 0.0

한국전기산업연구원 113 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) SS 220/10 kV Ershovo with approach of 2x200 MVA 0.0 12 one chain OL 220 kV Dorokhovo — Moscow 2014 Sloboda 2x1 km 0.0

SS 220/10 kV Kotlovka with approaches of 2x200 MVA 0.0 13 COL 220 kV CHPP-20 — Konkovo and Moscow 2014 CHPP-20 — Akademicheskaya 4x0.5 km

14 SS 220/20/10 kV Kozhevnicheskaya Moscow 2014 2x200 MVA 0.0

CL 220 kV CHPP-20 Kozhevnicheskaya 15 — Moscow 2014 2x5 km 0.0 1, 2

CL 220 kV Krasnoselskaya 16 — Moscow 2014 2x12.5 km 0.0 Kozhevnicheskaya 1, 2

SS 110/10 kV Avtozavodskaya 2x250 MVA, 17 Moscow 2014 0.0 (change-over to 220 kV) 2x80 MVA

CL 220 kV Avtozavodskaya Yuzhnaya 18 — Moscow 2014 2x5.7 km 0.0 1, 2

SS 220/20 kV Minskaya with approaches 2x160 MVA, 19 Moscow 2014 0.0 of CL 220 kV Ochakovo — Mnevniki 1, 2 4x9 km SS 220 kV Devyatskaya with approaches 2x200 MVA 0.0 20 of OL 220 kV Pakhra — Lesnaya and Moscow 2014 Lesnaya — Obraztsovo 4x2 km 0.0

Construction of SS 220/10 kV Tarusovo 2x63 MVA, 21 with approaches of CL 220 kV Moscow 2014 0.0 2x2 km Khlebnikovo — CHPP-27

SS 220 kV Pod'yachevo (Filimonovo) with 2x200 MVA, 22 approach of OL 220 kV Shukolovo Moscow 2015 0.0 — 2x2.5 km Radischevo

23 SS 220/10 kV Nazar'evo Moscow 2015 2x100 MVA 0.0

Construction of approaches of OL 220 kV Radischevo Luch and OL 220 kV 24 — Moscow 2015 4x0.5 km 0.0 Radischevo — Shmelevo to SS 220/10 kV Nazar'evo

SS 220/10(20) kV Avdot'ino (Konstantinovo) with approaches of OL 25 Moscow 2015 2x160MVA 0.0 220 kV Kashira — Pakhra and OL 220 kV Obraztsovo — Lesnaya

SS 220/20(10) kV Vel'yaminovo with 4x2.5 km 0.0 26 approaches of OL 220 kV Kashira — Moscow 2015 Pakhra 2x125 MVA 0.0

114 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 1,187.7 Investor 0.0 24.5

0.0 3,870.6 JSC «Energokomplex» P

0.0 1,675.7 JSC «MUEGC» P/C

0.0 2,110.4 JSC «MUEGC» C

0.0 2,807.9 JSC «Energokomplex» P

0.0 1,165.5 JSC «MUEGC» C

0.0 1,675.4 JSC «MUEGC» C

0.0 3,910.0 JSC «Energokomplex» P

0.0 2,089.7 JSC «Energocenter»

0.0 871.0 JSC «FGC UES»

0.0 2,508.0 JSC «MUEGC»

0.0 1,799.6 Investor

0.0 526.4 JSC «FGC UES» P

Investor (LLC «Koalko 0.0 1,428.5 development»)

0.0 106.4 Investor (LLC «Koalko development») 0.0 1,134.2

한국전기산업연구원 115 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Molokovo (Elovaya) and 2x160MVA 27 construction of double-circuit OL 220 kV Moscow 2015 2x10 km Pakhra — Molokovo 1, 2 2x100 MVA, 28 SS 220/20/10 kV Belorusskaya Moscow 2015 2x80 MVA

29 CL 220 kV Butyrki — Belorusskaya 1, 2 Moscow 2015 2x12 km CL 220 kV Magistralnaya Belorusskaya 30 — Moscow 2015 2x4.5 km 1, 2 SS 220/10 kV Arkhangelskaya with CL 220 4x100 MVA kV Zapadnaya Arkhangelskaya 1, 2 31 — Moscow 2015 and CL 220 kV Krasnogorskaya 2x22 km, — Arkhangelskaya 1 km

SS 220 kV Lazarevo with approaches of 2x200 MVA, 32 OL 220 kV Kashira Oka 1, 2 Moscow 2015 — 10 km (change-over to 220 kV) 2x250 MVA, SS 220/110 kV Metkino with approach of 33 Moscow 2015 2x100 MVA OL 220 kV Kashira — Pakhra 2x2 km SS 220/20(10) kV Kupchinino with 2x100 MVA 34 approaches of OL 220 kV Obraztsovo — Moscow 2015 Lesnaya 2x2 km SS 220/110 kV Filippovo (N. Mar'ino) with 2x250 MVA 35 construction of double-circuit OL 220 kV Moscow 2015 2x10 km Lesnaya — Filippovo (N. Mar'ino) SS 220/110/10 kV Romashkovo with construction of approaches of COL 220 2x250 MVA, 36 Moscow 2016 kV Ochakovo — Krasnogorskaya and COL 4x2 km 220 kV Ochakovo — Lykovo SS 220/110 kV Savinskaya with 2x250 MVA, 37 approaches of double-circuit COL 220 kV Moscow 2016 4x0.2 km Dorokhovo — Sloboda 1, 2 Approaches of OL 220 kV Raduga 38 — Moscow 2016 2x15 km Yartsevo to SS 220 kV Dmitrov SS 220/110/10 kV Tyutchevo (N. Pushkino) 2x200 MVA, 39 with approaches of OL 220 kV N. Sofrino Moscow 2015 2x5 km — Ucha SS 220/110/10 kV Boldino (Novo-Kostino) 40 with approaches of COL 220 kV Trubino Moscow 2015 2x125 MVA, 2x10 km — CHPP-23 2x250 MVA, 500.0 SS 220/110 kV Oreshkovo with 2x80 MVA 41 approaches of OL 220 kV Borisovskaya Moscow 2014, 2017 2x1.5 km, and OL 220 kV Chaginskaya 6.0 2x1.5 km

116 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

320.0

20.0

360.0

17.2

9.0

400.0

45.0

10.0 400.0

700.0

4.0

200.0

4.0

500.0

20.0

8.0 500.0

0.8 500.0

30.0

10.0 400.0

20.0 250.0

160.0

한국전기산업연구원 117 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- ing OL, km Total SS, MVA km MVA Mvar (Mvar) SS 220 kV Molokovo (Elovaya) and 2x160MVA 0.0 320.0 0.0 27 construction of double-circuit OL 220 kV Moscow 2015 Pakhra — Molokovo 1, 2 2x10 km 20.0 0.0 0.0 2x100 MVA, 28 SS 220/20/10 kV Belorusskaya Moscow 2015 0.0 360.0 0.0 2x80 MVA

29 CL 220 kV Butyrki — Belorusskaya 1, 2 Moscow 2015 2x12 km 17.2 0.0 0.0 CL 220 kV Magistralnaya Belorusskaya 30 — Moscow 2015 2x4.5 km 9.0 0.0 0.0 1, 2

SS 220/10 kV Arkhangelskaya with CL 220 4x100 MVA 0.0 400.0 0.0 kV Zapadnaya Arkhangelskaya 1, 2 31 — Moscow 2015 and CL 220 kV Krasnogorskaya 2x22 km, — 45.0 0.0 0.0 Arkhangelskaya 1 km

SS 220 kV Lazarevo with approaches of 2x200 MVA, 32 OL 220 kV Kashira Oka 1, 2 Moscow 2015 10.0 400.0 0.0 — 10 km (change-over to 220 kV) 2x250 MVA, 0.0 700.0 0.0 SS 220/110 kV Metkino with approach of 2x100 MVA 33 Moscow 2015 OL 220 kV Kashira Pakhra — 2x2 km 4.0 0.0 0.0

SS 220/20(10) kV Kupchinino with 2x100 MVA 0.0 200.0 0.0 34 approaches of OL 220 kV Obraztsovo — Moscow 2015 Lesnaya 2x2 km 4.0 0.0 0.0

SS 220/110 kV Filippovo (N. Mar'ino) with 2x250 MVA 0.0 500.0 0.0 35 construction of double-circuit OL 220 kV Moscow 2015 2x10 km 20.0 0.0 0.0 Lesnaya — Filippovo (N. Mar'ino) SS 220/110/10 kV Romashkovo with construction of approaches of COL 220 2x250 MVA, 36 Moscow 2016 8.0 500.0 0.0 kV Ochakovo — Krasnogorskaya and COL 4x2 km 220 kV Ochakovo — Lykovo SS 220/110 kV Savinskaya with 2x250 MVA, 37 approaches of double-circuit COL 220 kV Moscow 2016 0.8 500.0 0.0 4x0.2 km Dorokhovo — Sloboda 1, 2 Approaches of OL 220 kV Raduga 38 — Moscow 2016 2x15 km 30.0 0.0 0.0 Yartsevo to SS 220 kV Dmitrov

SS 220/110/10 kV Tyutchevo (N. Pushkino) 2x200 MVA, 39 with approaches of OL 220 kV N. Sofrino Moscow 2015 10.0 400.0 0.0 2x5 km — Ucha SS 220/110/10 kV Boldino (Novo-Kostino) 2x125 MVA, 40 with approaches of COL 220 kV Trubino Moscow 2015 20.0 250.0 0.0 2x10 km — CHPP-23 2x250 MVA, 0.0 660.0 0.0 SS 220/110 kV Oreshkovo with 2x80 MVA 41 approaches of OL 220 kV Borisovskaya Moscow 2014, 2017 2x1.5 km, and OL 220 kV Chaginskaya 6.0 0.0 0.0 2x1.5 km

118 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB 1,239.7 0.0 1,239.7 0.0 0.0

513.6 0.0 513.6 0.0 0.0

3,238.1 0.0 2,556.0 0.0 0.0

2,060.3 0.0 1,571.7 0.0 0.0

1,919.5 0.0 1,464.0 0.0 0.0

1,223.0 0.0 1,223.0 0.0 0.0

4,590.6 0.0 4,590.6 0.0 0.0

3,017.9 14.3 92.5 450.2 1,777.6

2,503.0 0.0 2,503.0 0.0 0.0

17.9 0.0 17.9 0.0 0.0

1,062.6 0.0 1,062.6 0.0 0.0

53.2 0.0 53.2 0.0 0.0

2,418.9 0.0 936.3 1,482.7 0.0

2,277.7 0.0 0.0 2,277.7 0.0

2,154.2 0.0 0.0 2,154.2 0.0

663.0 31.6 285.0 260.0 68.0

2,643.7 371.1 759.9 664.2 523.0

2,377.2 349.0 763.1 527.6 396.0

4,264.9 0.0 0.0 1,420.7 2,193.9

한국전기산업연구원 119 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- ing OL, km 2018 SS, MVA mln RUB (Mvar) SS 220 kV Molokovo (Elovaya) and 2x160MVA 0.0 27 construction of double-circuit OL 220 kV Moscow 2015 2x10 km 0.0 Pakhra — Molokovo 1, 2 2x100 MVA, 28 SS 220/20/10 kV Belorusskaya Moscow 2015 0.0 2x80 MVA

29 CL 220 kV Butyrki — Belorusskaya 1, 2 Moscow 2015 2x12 km 0.0 CL 220 kV Magistralnaya Belorusskaya 30 — Moscow 2015 2x4.5 km 0.0 1, 2

SS 220/10 kV Arkhangelskaya with CL 220 4x100 MVA 0.0 kV Zapadnaya Arkhangelskaya 1, 2 31 — Moscow 2015 and CL 220 kV Krasnogorskaya 2x22 km, — 0.0 Arkhangelskaya 1 km

SS 220 kV Lazarevo with approaches of 2x200 MVA, 32 OL 220 kV Kashira Oka 1, 2 Moscow 2015 0.0 — 10 km (change-over to 220 kV) 2x250 MVA, SS 220/110 kV Metkino with approach of 0.0 33 Moscow 2015 2x100 MVA OL 220 kV Kashira Pakhra — 2x2 km 0.0

SS 220/20(10) kV Kupchinino with 2x100 MVA 0.0 34 approaches of OL 220 kV Obraztsovo — Moscow 2015 Lesnaya 2x2 km 0.0

SS 220/110 kV Filippovo (N. Mar'ino) with 2x250 MVA 0.0 35 construction of double-circuit OL 220 kV Moscow 2015 Lesnaya — Filippovo (N. Mar'ino) 2x10 km SS 220/110/10 kV Romashkovo with construction of approaches of COL 220 2x250 MVA, 36 Moscow 2016 0.0 kV Ochakovo — Krasnogorskaya and COL 4x2 km 220 kV Ochakovo — Lykovo SS 220/110 kV Savinskaya with 2x250 MVA, 37 approaches of double-circuit COL 220 kV Moscow 2016 0.0 4x0.2 km Dorokhovo — Sloboda 1, 2

Approaches of OL 220 kV Raduga 38 — Moscow 2016 2x15 km 0.0 Yartsevo to SS 220 kV Dmitrov

SS 220/110/10 kV Tyutchevo (N. Pushkino) 2x200 MVA, 39 with approaches of OL 220 kV N. Sofrino Moscow 2015 0.0 2x5 km — Ucha

SS 220/110/10 kV Boldino (Novo-Kostino) 2x125 MVA, 40 with approaches of COL 220 kV Trubino Moscow 2015 0.0 2x10 km — CHPP-23 2x250 MVA, SS 220/110 kV Oreshkovo with 2x80 MVA 41 approaches of OL 220 kV Borisovskaya Moscow 2014, 2017 0.0 and OL 220 kV Chaginskaya 2x1.5 km, 2x1.5 km

120 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2018 2019 development)

mln RUB mln RUB

0.0 0.0 LLL «Est'» 0.0 0.0

0.0 0.0 JSC «MUEGC»

0.0 0.0 JSC «MUEGC»

0.0 0.0 JSC «MUEGC»

0.0 0.0 Investor 0.0 0.0

0.0 0.0 JSC «MUEGC»

0.0 0.0 Investor 0.0 0.0

0.0 0.0 Investor 0.0 0.0

0.0 0.0 JSC «MUEGC»

0.0 0.0 Investor

0.0 0.0 Investor

0.0 0.0 JSC «FGC UES»

0.0 0.0 JSC «MUEGC»

0.0 0.0 JSC «MUEGC»

0.0 0.0 JSC «MUEGC»

한국전기산업연구원 121 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Sirena (change-over to 220 kV) with approaches of OL 220 kV 42 Moscow 2017 2x125 MVA, 4x1.5 km Shaturskaya SDPP — Peski and OL 220 kV Krona — Peski 2x250 MVA, 43 SS 220/110/10 kV Khovanskaya (City 101) Moscow 2018 2x200 MVA CL 220 kV Nikulino Khovanskaya (City — 2x10 km, 44 101) 1, 2 and OL 220 kV Filippovo — Moscow 2018 2x10 km Khovanskaya (City 101) 1, 2 2x200 MVA, SS 220/110 kV Vzletnaya (Aviagorsk) with 2x100 MVA 45 construction of PTL 220 kV Pakhra — Moscow 2018-2019 Vzletnaya 1, 2 2x15 km

SS 220/10(20) kV Kutuzovo (Makarovo) 2x160MVA with approaches of OL 220 kV Lesnaya 46 Moscow 2019 — Pakhra and OL 220 kV Obraztsovo — Lesnaya 4x3 km

2x160MVA SS 220/10(20) kV Pavlino and PTL 220 kV 47 Moscow 2019-2020 Pavlino Kaskadnaya 1, 2 — 2x6 km

Facilities for relieving of transmission constraints and reinforcement of reliability of electric 3.6 1,900.0 0.0 power supply to existing consumers 500, 700 kV 0.6 1,900.0 0.0 2x500 MVA, SS 500/220/20 kV Kaskadnaya with 0.2 1,000.0 2x0.1 km approaches of OL 500 kV Chagino — 48 Moscow 2014, 2017 2x250 MVA, Noginsk and OL 220 kV Vostochnaya — Tsagi and CHPP-23 Noginsk 4x100 MVA, 0.4 900.0 4x0.1 km

49 OL 500 kV Dorokhovo Obninsk Moscow, 2017 110 km — Kaluga Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Pakhra (2 AT 50 Moscow 2016 500/220 kV; 2 AT 220/110 kV; 2 AT 2x250 MVA, 220/10 kV) 2x100 MVA Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Trubino (2 AT 51 Moscow 2017 500/220 kV; 2 AT 220/110 kV; 2 AT 2x250 MVA, 220/10 kV) 2x100 MVA

Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Noginsk (2 52 Moscow 2017 AT 500/220 kV; 4 AT 220/110 kV; 2 AT 4x250 MVA, 220/10 kV) 2x100 MVA, 200 Mvar

SS 500 kV Butyrki with CL 500 kV 2x500MVA 53 Moscow 2019 Beskudnikovo — Butyrki 9 km

SS500kVOzherel'e(Kashira)withapproacheso 500 kV-2x10 fOL500kVChagino Mikhaylovskayaandseg km 54 — Moscow 2019 mentofOL750kVofbranchKaluzskaya—SSOz 750 kV-10 herel'e km

122 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

6.0 250.0

900.0

40.0

400.0 200.0

30.0

320.0

12.0

320.0

12.0

0.0 0.0 0.0 0.0 1,700.0 0.0 110.0 3,900.0 200.0 0.0 0.0 0.0 39.0 500.0 0.0

0.0 0.0 0.0 0.0 1,700.0 0.0 110.0 3,900.0 200.0 0.0 0.0 0.0 39.0 500.0 0.0

110.0

1,000.0

700.0

1,000.0

700.0

1,000.0

1,200.0 200.0

500.0

9.0

한국전기산업연구원 123 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Sirena (change-over to 220 kV) with approaches of OL 220 kV 2x125 MVA, 42 Moscow 2017 Shaturskaya SDPP — Peski and OL 220 4x1.5 km kV Krona — Peski 2x250 MVA, 43 SS 220/110/10 kV Khovanskaya (City 101) Moscow 2018 2x200 MVA CL 220 kV Nikulino Khovanskaya (City — 2x10 km, 44 101) 1, 2 and OL 220 kV Filippovo Moscow 2018 — 2x10 km Khovanskaya (City 101) 1, 2 2x200 MVA, SS 220/110 kV Vzletnaya (Aviagorsk) with 2x100 MVA 45 construction of PTL 220 kV Pakhra — Moscow 2018-2019 Vzletnaya 1, 2 2x15 km

SS 220/10(20) kV Kutuzovo (Makarovo) 2x160MVA with approaches of OL 220 kV Lesnaya 46 Moscow 2019 — Pakhra and OL 220 kV Obraztsovo — 4x3 km Lesnaya

SS 220/10(20) kV Pavlino and PTL 220 kV 2x160MVA 47 Moscow 2019-2020 Pavlino — Kaskadnaya 1, 2 2x6 km

Facilities for relieving of transmission constraints and reinforcement of reliability of electric 3.6 1,900.0 0.0 power supply to existing consumers 500, 700 kV 0.6 1,900.0 0.0 2x500 MVA, SS 500/220/20 kV Kaskadnaya with 0.2 1,000.0 2x0.1 km approaches of OL 500 kV Chagino 48 — Moscow 2014, 2017 2x250 MVA, Noginsk and OL 220 kV Vostochnaya — Tsagi and CHPP-23 Noginsk 4x100 MVA, 0.4 900.0 4x0.1 km Moscow, 49 OL 500 kV Dorokhovo Obninsk 2017 110 km — Kaluga Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Pakhra (2 AT 50 Moscow 2016 500/220 kV; 2 AT 220/110 kV; 2 AT 2x250 MVA, 220/10 kV) 2x100 MVA Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Trubino (2 AT 51 Moscow 2017 500/220 kV; 2 AT 220/110 kV; 2 AT 2x250 MVA, 220/10 kV) 2x100 MVA

Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Noginsk (2 52 Moscow 2017 4x250 MVA, AT 500/220 kV; 4 AT 220/110 kV; 2 AT 2x100 MVA, 220/10 kV) 200 Mvar SS 500 kV Butyrki with CL 500 kV 2x500MVA 53 Moscow 2019 Beskudnikovo — Butyrki 9 km SS500kVOzherel'e(Kashira)withapproacheso 500 kV-2x10 fOL500kVChagino Mikhaylovskayaandseg km 54 — Moscow 2019 mentofOL750kVofbranchKaluzskaya—SSOz 750 kV-10 herel'e km

124 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

3,315.8 190.3 351.7 774.5 1,285.4

3,086.0 0.0 0.0 0.0 0.0

3,673.3 0.0 0.0 0.0 0.0

3,779.8 0.0 0.0 0.0 0.0

485.4 0.0 0.0 0.0 0.0

1,822.2 0.0 0.0 0.0 0.0

204.6 0.0 0.0 0.0 0.0

1,586.0 0.0 0.0 0.0 0.0

204.8 0.0 0.0 0.0 0.0

49,305.1 5,201.2 6,324.0 7,501.0 5,732.2

48,914.9 4,811.0 6,324.0 7,501.0 5,732.2

1,845.0 504.0 0.0 0.0 8,889.9

4,278.0 0.0 1,070.0 1,711.0 1,497.0

1,500.0 2,450.0 2,490.0 563.6 7,761.1

740.0 1,000.0 1,000.0 1,095.4 8,745.5

720.0 1,100.0 1,800.0 1,836.2 10,519.0

2,511.6 0.0 0.0 0.0 0.0

3,611.3 0.0 0.0 0.0 0.0

2,598.5 6.0 200.0 500.0 740.0

한국전기산업연구원 125 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) SS 220 kV Sirena (change-over to 220 kV) with approaches of OL 220 kV 2x125 MVA, 42 Moscow 2017 190.3 Shaturskaya SDPP — Peski and OL 220 4x1.5 km kV Krona — Peski 2x250 MVA, 43 SS 220/110/10 kV Khovanskaya (City 101) Moscow 2018 0.0 2x200 MVA

CL 220 kV Nikulino Khovanskaya (City — 2x10 km, 44 101) 1, 2 and OL 220 kV Filippovo Moscow 2018 0.0 — 2x10 km Khovanskaya (City 101) 1, 2 2x200 MVA, SS 220/110 kV Vzletnaya (Aviagorsk) with 0.0 2x100 MVA 45 construction of PTL 220 kV Pakhra — Moscow 2018-2019 Vzletnaya 1, 2 2x15 km 0.0

SS 220/10(20) kV Kutuzovo (Makarovo) 2x160MVA 0.0 with approaches of OL 220 kV Lesnaya 46 Moscow 2019 — Pakhra and OL 220 kV Obraztsovo — Lesnaya 4x3 km 0.0

SS 220/10(20) kV Pavlino and PTL 220 kV 2x160MVA 0.0 47 Moscow 2019-2020 Pavlino — Kaskadnaya 1, 2 2x6 km 0.0

Facilities for relieving of transmission constraints and reinforcement of reliability of electric power 5,201.2 supply to existing consumers 500, 700 kV 4,811.0 2x500 MVA, SS 500/220/20 kV Kaskadnaya with 1,845.0 2x0.1 km approaches of OL 500 kV Chagino 48 — Moscow 2014, 2017 2x250 MVA, Noginsk and OL 220 kV Vostochnaya — 4x100 MVA, Tsagi and CHPP-23 Noginsk 4x0.1 km Moscow, 49 OL 500 kV Dorokhovo Obninsk 2017 110 km 0.0 — Kaluga

Complex technical reequipment and 2x500MVA 1,500.0 reconstruction of SS 500 kV Pakhra (2 AT 50 Moscow 2016 500/220 kV; 2 AT 220/110 kV; 2 AT 2x250 MVA, 220/10 kV) 2x100 MVA Complex technical reequipment and 2x500MVA 740.0 reconstruction of SS 500 kV Trubino (2 AT 51 Moscow 2017 500/220 kV; 2 AT 220/110 kV; 2 AT 2x250 MVA, 220/10 kV) 2x100 MVA

Complex technical reequipment and 2x500MVA reconstruction of SS 500 kV Noginsk (2 52 Moscow 2017 4x250 MVA, 720.0 AT 500/220 kV; 4 AT 220/110 kV; 2 AT 2x100 MVA, 220/10 kV) 200 Mvar

SS 500 kV Butyrki with CL 500 kV 2x500MVA 0.0 53 Moscow 2019 Beskudnikovo — Butyrki 9 km 0.0 SS500kVOzherel'e(Kashira)withapproacheso 500 kV-2x10 fOL500kVChagino Mikhaylovskayaandseg km 54 — Moscow 2019 6.0 mentofOL750kVofbranchKaluzskaya—SSOz herel'e 750 kV-10 km

126 Russian Energy Systems Market Research 부록 1

Capital investments (money Capital investments (money of the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 2,601.9 JSC «MUEGC»

0.0 3,086.0 JSC «Masshtab»

0.0 3,673.3 JSC «Masshtab»

0.0 3,779.8 Investor 0.0 485.4

1,822.2 1,822.2 Investor (LLC «Koalko development») 204.6 204.6

1,586.0 1,586.0 Investor (LLC «Morton-RSO») 204.8 204.8

3,695.8 31,917.3

3,695.8 31,527.1

0.0 2,349.0 JSC «FGC UES»

0.0 4,278.0 JSC «FGC UES» P

0.0 7,003.6 JSC «FGC UES» P

0.0 3,835.4 JSC «FGC UES» P

0.0 5,456.2 JSC «FGC UES» P

1,847.9 2,511.6 JSC «FGC UES» 1,847.9 3,611.3

0.0 2,482.0 JSC «FGC UES»

한국전기산업연구원 127 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- ing OL, km 2014 SS, MVA km MVA Mvar (Mvar) 220 kV 3.0 0.0 0.0 Construction of cable approaches of OL 55 220 kV CHPP-26 — Yasnevo to SS 220 Moscow 2014, 2017 2x1.5km 3.0 kV Butovo

Facilities of renovation with increasing of transformer capacity 0.0 1,880.0 0.0

220 kV 0.0 1,880.0 0.0 SS220/10kVGol'yanovo(replacementofT220/1 56 Moscow 2014 2x100 MVA 200.0 0kV2x63MVAwith2x100MVA) SS 220 kV Tempy (replacement of AT 2x200 + 57 220/10 kV 2x125 MVA with 2x200 MVA, Moscow 2014 480.0 2x40 MVA installation of additional T) SS 220/110 kV Presnya (replacement of 2x250 + 58 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2014 700.0 2x100 MVA MVA, installation of additional T) SS 220/110 kV Baskakovo (replacement of 59 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2014 2x250 MVA 500.0 MVA) Reconstruction of SS 220/10 kV Vladykino, construction of GIMCA (gas-insulated 60 Moscow 2015 2x80 MVA metal-clad apparatus) (replacement of T 2x63 MVA with 2x80 MVA)

SS 220/10 kV Centralnaya (installation of 61 Moscow 2015 2x80 MVA additional T)

SS 220/110/10/6 kV Luch (replacement of 2x200 + 62 AT 220/110 kV 2x125 MVA with 2x200 Moscow 2015 2x80 MVA MVA, installation of additional T) SS 220 kV Khvoynaya (replacement of AT 63 Moscow 2015 2x250 MVA 220/110 kV 2x200 MVA with 2x250 MVA) SS 220/110 kV Starbeevo (replacement of 64 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA MVA) SS 220/110 kV Chertanovo (installation of 65 Moscow 2016 2x100 MVA additional T) SS 220/110 kV Saburovo (replacement of 66 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA MVA) SS 220/110 kV Yuzhnaya (replacement of 67 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA MVA)

TOTAL, including 210.6 7,186.0 0.0

750 kV 0.0 0.0 0.0

500 kV 0.6 1,900.0 0.0

220 kV 210.0 5,286.0 0.0

128 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 1,380.0 0.0 0.0 1,700.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 1,380.0 0.0 0.0 1,700.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

160.0

160.0

560.0

500.0

500.0

200.0

500.0

500.0

556.2 6,080.0 180.0 38.8 4,400.0 0.0 116.0 4,310.0 200.0 70.0 1,300.0 0.0 64.0 2,342.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 10.0 0.0 0.0

375.0 0.0 180.0 0.0 1,700.0 0.0 110.0 3,900.0 200.0 0.0 0.0 0.0 30.0 1,502.0 0.0

181.2 6,080.0 0.0 38.8 2,700.0 0.0 6.0 410.0 0.0 70.0 1,300.0 0.0 24.0 840.0 0.0

한국전기산업연구원 129 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- ing OL, km Total SS, MVA km MVA Mvar (Mvar) 220 kV 3.0 0.0 0.0 Construction of cable approaches of OL 55 220 kV CHPP-26 — Yasnevo to SS 220 Moscow 2014, 2017 2x1.5km 3.0 0.0 0.0 kV Butovo

Facilities of renovation with increasing of transformer capacity 0.0 4,960.0 0.0

220 kV 0.0 4,960.0 0.0 SS220/10kVGol'yanovo(replacementofT220/1 56 Moscow 2014 2x100 MVA 0.0 200.0 0.0 0kV2x63MVAwith2x100MVA) SS 220 kV Tempy (replacement of AT 2x200 + 57 220/10 kV 2x125 MVA with 2x200 MVA, Moscow 2014 0.0 480.0 0.0 2x40 MVA installation of additional T) SS 220/110 kV Presnya (replacement of 2x250 + 58 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2014 0.0 700.0 0.0 2x100 MVA MVA, installation of additional T) SS 220/110 kV Baskakovo (replacement of 59 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2014 2x250 MVA 0.0 500.0 0.0 MVA) Reconstruction of SS 220/10 kV Vladykino, construction of GIMCA (gas-insulated 60 Moscow 2015 2x80 MVA 0.0 160.0 0.0 metal-clad apparatus) (replacement of T 2x63 MVA with 2x80 MVA)

SS 220/10 kV Centralnaya (installation of 61 Moscow 2015 2x80 MVA 0.0 160.0 0.0 additional T)

SS 220/110/10/6 kV Luch (replacement of 2x200 + 62 AT 220/110 kV 2x125 MVA with 2x200 Moscow 2015 0.0 560.0 0.0 2x80 MVA MVA, installation of additional T)

SS 220 kV Khvoynaya (replacement of AT 63 Moscow 2015 2x250 MVA 0.0 500.0 0.0 220/110 kV 2x200 MVA with 2x250 MVA) SS 220/110 kV Starbeevo (replacement of 64 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA 0.0 500.0 0.0 MVA) SS 220/110 kV Chertanovo (installation of 65 Moscow 2016 2x100 MVA 0.0 200.0 0.0 additional T) SS 220/110 kV Saburovo (replacement of 66 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA 0.0 500.0 0.0 MVA) SS 220/110 kV Yuzhnaya (replacement of 67 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA 0.0 500.0 0.0 MVA)

TOTAL, including 1,055.6 25,618.0 380.0

750 kV 10.0 0.0 0.0

500 kV 515.6 9,002.0 380.0

220 kV 530.0 16,616.0 0.0

130 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

390.2 390.2 0.0 0.0 0.0

390.2 390.2 0.0 0.0 0.0

31,136.3 8,375.9 3,102.4 1,654.6 9,518.5

31,136.3 8,375.9 3,102.4 1,654.6 9,518.5

2,122.4 1,601.1 0.0 0.0 0.0

2,456.5 1,338.9 522.8 0.0 0.0

4,018.0 3,132.0 0.0 0.0 0.0

2,225.9 0.0 0.0 943.3 943.3

1,748.4 0.0 1,333.3 0.0 0.0

1,616.8 1,237.1 0.0 0.0 0.0

2,320.3 264.3 444.2 0.0 0.0

610.5 44.6 134.0 228.2 142.5

958.6 0.0 152.2 483.1 195.1

4,229.2 757.9 515.9 0.0 0.0

3,882.9 0.0 0.0 0.0 3,290.8

4,946.8 0.0 0.0 0.0 4,946.8

211,995.3 38,266.7 43,078.8 35,058.9 22,365.6

0.0 0.0 0.0 0.0 0.0

72,370.7 5,205.8 10,786.1 22,246.5 6,237.2

139,624.6 33,060.9 32,292.7 12,812.4 16,128.4

한국전기산업연구원 131 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- ing OL, km 2018 SS, MVA mln RUB (Mvar) 220 kV 0.0 Construction of cable approaches of OL 55 220 kV CHPP-26 — Yasnevo to SS 220 Moscow 2014, 2017 2x1.5km 0.0 kV Butovo

Facilities of renovation with increasing of transformer capacity 0.0

220 kV 0.0 SS220/10kVGol'yanovo(replacementofT220/1 56 Moscow 2014 2x100 MVA 0.0 0kV2x63MVAwith2x100MVA) SS 220 kV Tempy (replacement of AT 2x200 + 57 220/10 kV 2x125 MVA with 2x200 MVA, Moscow 2014 0.0 2x40 MVA installation of additional T) SS 220/110 kV Presnya (replacement of 2x250 + 58 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2014 0.0 2x100 MVA MVA, installation of additional T) SS 220/110 kV Baskakovo (replacement of 59 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2014 2x250 MVA 0.0 MVA) Reconstruction of SS 220/10 kV Vladykino, construction of GIMCA (gas-insulated 60 Moscow 2015 2x80 MVA 0.0 metal-clad apparatus) (replacement of T 2x63 MVA with 2x80 MVA)

SS 220/10 kV Centralnaya (installation of 61 Moscow 2015 2x80 MVA 0.0 additional T)

SS 220/110/10/6 kV Luch (replacement of 2x200 + 62 AT 220/110 kV 2x125 MVA with 2x200 Moscow 2015 0.0 2x80 MVA MVA, installation of additional T)

SS 220 kV Khvoynaya (replacement of AT 63 Moscow 2015 2x250 MVA 0.0 220/110 kV 2x200 MVA with 2x250 MVA)

SS 220/110 kV Starbeevo (replacement of 64 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA 0.0 MVA) SS 220/110 kV Chertanovo (installation of 65 Moscow 2016 2x100 MVA 0.0 additional T) SS 220/110 kV Saburovo (replacement of 66 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA 0.0 MVA) SS 220/110 kV Yuzhnaya (replacement of 67 AT 220/110 kV 2x200 MVA with 2x250 Moscow 2016 2x250 MVA 0.0 MVA)

TOTAL, including 15,295.6 750 kV 0.0 500 kV 4,271.1 220 kV 11,024.5

132 Russian Energy Systems Market Research 부록 1

Capital investments (money Capital investments (money of the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 total development)

mln RUB mln RUB

0.0 390.2

0.0 390.2 JSC «MUEGC»

0.0 22,651.4

0.0 22,651.4

0.0 1,601.1 JSC «MUEGC»

0.0 1,861.7 JSC «FGC UES»

0.0 3,132.0 JSC «MUEGC»

0.0 1,886.6 JSC «MUEGC»

0.0 1,333.3 JSC «MUEGC» P

0.0 1,237.1 JSC «MUEGC»

0.0 708.5 JSC «FGC UES»

0.0 549.3 JSC «MUEGC»

0.0 830.4 JSC «MUEGC»

0.0 1,273.8 JSC «MUEGC»

0.0 3,290.8 JSC «MUEGC»

0.0 4,946.8 JSC «MUEGC»

8,220.4 162,286.0 0.0 0.0 4,402.8 53,149.5 3,817.6 109,136.5 Comment. Equipment that sited in the territory of electric power plants does not included In the cost of facilities.

한국전기산업연구원 133 러시아 에너지시스템 시장 현황

라. UPS of South

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 395.0 0.0 180.0

NPP 350.0 0.0 180.0 500kV 350.0 0.0 180.0 OL 500 kV Rostovskaya NPP Rostov, 350 km, 1 — 2014 350.0 180.0 Tikhoretsk (the 2d OL) Kuban 2xSR-180 OL 500 kV Rostovskaya NPP 300 km, 2 — Rostov 2017 Rostovskaya 2xSR-180

HPP 45.0 0.0 0.0 500kV 45.0 0.0 0.0 OL 330 kV Zelenchukskaya HPP — Karachay- 3 PSPP Cherkessk with enlargement of 2014 45 km 45.0 — Cherkessia SS 330 kV Cherkessk Kabardino- Approaches of OL 330 kV Nalchik Balkaria 4 — — 2017 2x20 km Vladikavkaz-2 at Zaramagskaya HPP-1 North Ossetia

TPP 0.0 0.0 0.0 500kV 0.0 0.0 0.0 OL 500 kV Stavropolskaya SDPP- SS 500 110 km, 5 Stavropol 2016 kV Nevinnomyssk 180 Mvar

Providing the opportunity of hooking up new consumers, and also implementation of technical 214.0 1,006.0 0.0 specifications 500 kV 76.0 0.0 0.0 SS 500 kV Buzhora (Anapa) with OL 500 501 MVA, 6 Kuban 2014.2016 76.0 kV Kubanskaya — Anapa 76 km 330 kV 0.0 250.0 0.0 Installation of two AT 330/110 kV at SS 7 Stavropol 2014 2x125 MVA 250.0 500 kV Nevinnomysskaya

SS 330 kV Zavodskaya with 8 Kuban 2016 160 MVA double-circuit OL 330 kV (the 2d stage)

220 kV 138.0 756.0 0.0

SS 220 kV Generalskaya with two OL 2x20 km, 9 Rostov 2014 40.0 250.0 220 kV from SS 500 kV Rostovskaya 2x125 MVA

ApproachesofOL220kVatSS220kVKrasnoar meyskayafromexistingOL220kVVolgogradsk ayaCHPP-3—GumrakandYuzhnaya—Kirovs kayawithcells220kV(withconstructionofOL22 10 Volgograd 2017 3.8 km 0kVVolgogradskayaCHPP-3— Krasnoarmeyskaya, Krasnoarmeyskaya — Gumrak, Yuzhnaya — Krasnoarmeyskaya and Krasnoarmeyskaya — Kirovskaya

134 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 0.0 0.0 110.0 0.0 180.0 360.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 300.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 300.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0

300.0 180.0

0.0 0.0 0.0 0.0 0.0 0.0 60.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 60.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

60.0

0.0 0.0 0.0 110.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 110.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

110.0 180.0

16.0 375.0 0.0 173.0 1,186.0 0.0 3.8 0.0 0.0 133.0 250.0 0.0 181.9 200.0 0.0

0.0 0.0 0.0 0.0 501.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

501.0

0.0 0.0 0.0 0.0 160.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

160.0

16.0 375.0 0.0 173.0 525.0 0.0 3.8 0.0 0.0 133.0 250.0 0.0 181.9 200.0 0.0

3.8

한국전기산업연구원 135 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 865.0 0.0 540.0

NPP 650.0 0.0 360.0 500kV 650.0 0.0 360.0 OL 500 kV Rostovskaya NPP Rostov, 350 km, 1 — 2014 350.0 0.0 180.0 Tikhoretsk (the 2d OL) Kuban 2xSR-180 OL 500 kV Rostovskaya NPP 300 km, 2 — Rostov 2017 300.0 0.0 180.0 Rostovskaya 2xSR-180

HPP 105.0 0.0 0.0 500kV 105.0 0.0 0.0 OL 330 kV Zelenchukskaya HPP PSPP — Karachay- 3 Cherkessk with enlargement of SS 330 2014 45 km 45.0 0.0 0.0 — Cherkessia kV Cherkessk Kabardino- Approaches of OL 330 kV Nalchik Balkaria 4 — — 2017 2x20 km 60.0 0.0 0.0 Vladikavkaz-2 at Zaramagskaya HPP-1 North Ossetia

TPP 110.0 0.0 180.0 500kV 110.0 0.0 180.0 OL 500 kV Stavropolskaya SDPP- SS 500 110 km, 5 Stavropol 2016 110.0 0.0 180.0 kV Nevinnomyssk 180 Mvar

Providing the opportunity of hooking up new consumers, and also implementation of technical 721.7 3,017.0 0.0 specifications 500 kV 76.0 501.0 0.0 SS 500 kV Buzhora (Anapa) with OL 500 501 MVA, 6 Kuban 2014.2016 76.0 501.0 0.0 kV Kubanskaya — Anapa 76 km 330 kV 0.0 410.0 0.0 Installation of two AT 330/110 kV at SS 7 Stavropol 2014 2x125 MVA 0.0 250.0 0.0 500 kV Nevinnomysskaya

SS 330 kV Zavodskaya with double-circuit 8 Kuban 2016 160 MVA 0.0 160.0 0.0 OL 330 kV (the 2d stage)

220 kV 645.7 2,106.0 0.0

SS 220 kV Generalskaya with two OL 220 2x20 km, 9 Rostov 2014 40.0 250.0 0.0 kV from SS 500 kV Rostovskaya 2x125 MVA

ApproachesofOL220kVatSS220kVKrasnoarm eyskayafromexistingOL220kVVolgogradskay aCHPP-3—GumrakandYuzhnaya—Kirovskay awithcells220kV(withconstructionofOL220kV 10 Volgograd 2017 3.8 km 3.8 0.0 0.0 VolgogradskayaCHPP-3— Krasnoarmeyskaya, Krasnoarmeyskaya — Gumrak, Yuzhnaya — Krasnoarmeyskaya and Krasnoarmeyskaya — Kirovskaya

136 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

23,802.0 1,644.0 2,811.0 3,988.0 7,149.0

16,550.0 868.0 909.0 918.0 7,149.0

16,550.0 868.0 909.0 918.0 7,149.0

9,000.0 518.0 519.0 519.0 6,750.0

7,550.0 350.0 390.0 399.0 399.0

2,279.0 776.0 0.0 0.0 0.0 2,279.0 776.0 0.0 0.0 0.0

1,130.0 751.0 0.0 0.0 0.0

1,149.0 25.0 0.0 0.0 0.0

4,973.0 0.0 1,902.0 3,070.0 0.0 4,973.0 0.0 1,902.0 3,070.0 0.0

4,973.0 0.0 1,902.0 3,070.0 0.0

38,049.8 6,859.0 4,899.3 11,111.4 2,028.0

6,893.0 1,353.0 1,442.0 2,833.0 0.0 6,893.0 1,353.0 1,442.0 2,833.0 0.0

5,856.5 335.0 702.0 3,155.0 0.0

2,877.4 200.0 269.0 2,135.0 0.0

2,979.1 135.0 433.0 1,020.0 0.0

25,300.3 5,171.0 2,755.3 5,123.4 2,028.0

2,599.3 1,353.0 0.0 0.0 0.0

327.0 0.0 0.0 10.0 297.0

한국전기산업연구원 137 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 5,500.0

NPP 4,500.0

500kV 4,500.0 OL 500 kV Rostovskaya NPP Rostov, 350 km, 1 — 2014 0.0 Tikhoretsk (the 2d OL) Kuban 2xSR-180

OL 500 kV Rostovskaya NPP 300 km, 2 — Rostov 2017 4,500.0 Rostovskaya 2xSR-180

HPP 1,000.0 500kV 1,000.0 OL 330 kV Zelenchukskaya HPP PSPP — Karachay- 3 Cherkessk with enlargement of SS 330 2014 45 km 0.0 — Cherkessia kV Cherkessk Kabardino- Approaches of OL 330 kV Nalchik Balkaria 4 — — 2017 2x20 km 1,000.0 Vladikavkaz-2 at Zaramagskaya HPP-1 North Ossetia

TPP 0.0 500kV 0.0 OL 500 kV Stavropolskaya SDPP- SS 500 110 km, 5 Stavropol 2016 0.0 kV Nevinnomyssk 180 Mvar

Providing the opportunity of hooking up new consumers, and also implementation of technical 3,124.0 specifications 500 kV 0.0 SS 500 kV Buzhora (Anapa) with OL 500 501 MVA, 6 Kuban 2014.2016 0.0 kV Kubanskaya — Anapa 76 km 330 kV 0.0 Installation of two AT 330/110 kV at SS 7 Stavropol 2014 2x125 MVA 0.0 500 kV Nevinnomysskaya

SS 330 kV Zavodskaya with double-circuit 8 Kuban 2016 160 MVA 0.0 OL 330 kV (the 2d stage)

220 kV 3,124.0

SS 220 kV Generalskaya with two OL 220 2x20 km, 9 Rostov 2014 0.0 kV from SS 500 kV Rostovskaya 2x125 MVA

ApproachesofOL220kVatSS220kVKrasnoarm eyskayafromexistingOL220kVVolgogradskay aCHPP-3—GumrakandYuzhnaya—Kirovskay awithcells220kV(withconstructionofOL220kV 10 Volgograd 2017 3.8 km 20.0 VolgogradskayaCHPP-3— Krasnoarmeyskaya, Krasnoarmeyskaya — Gumrak, Yuzhnaya — Krasnoarmeyskaya and Krasnoarmeyskaya — Kirovskaya

138 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 total development)

mln RUB mln RUB

1,264.0 22,356.0

1,161.0 15,505.0

1,161.0 15,505.0

0.0 8,306.0 JSC «FGC UES» P

1,161.0 7,199.0 JSC «FGC UES» P

103.0 1,879.0 103.0 1,879.0

0.0 751.0 JSC «FGC UES» P

103.0 1,128.0 JSC «FGC UES» P

0.0 4,972.0 0.0 4,972.0

0.0 4,972.0 JSC «FGC UES» P

3,649.0 31,670.7

0.0 5,628.0

0.0 5,628.0 JSC «FGC UES»

0.0 4,192.0

0.0 2,604.0 JSC «FGC UES» P

0.0 1,588.0 Armavir Steel Mill

3,649.0 21,850.7

Municipal energo-service 0.0 1,353.0 company (Rostov city)

0.0 327.0 JSC «FGC UES» P

한국전기산업연구원 139 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Construction of SS 220 kV Vostochnaya promzona with approaches of two OL 220 4x4 km, 11 Kuban 2015 16.0 250.0 0.0 kV Krasnodarskaya CHPP — 2x125 MVA Vitaminkombinat Construction of new OL 220 kV Kubanskaya — Kirillovskaya. SS Kubanskaya enlargement of SWYD 220 12 — Kuban 2014 20 km 20.0 0.0 0.0 kV with one cell. SS Kirillovskaya — enlargement of SWYD 220 kV (GIMCA) with one cell CJSC «NCZ Gorny» 30 km, 2x40 13 SS 220 kV NCZ Gorny with OL 220 kV Kuban 2014 30.0 80.0 0.0 MVA SS 220 kV of OBS-8 (oil booster station) 2x1 km, 2x25 14 with approaches of OL 220 kV Kuban 2014 2.0 50.0 0.0 MVA Kubanskaya — Buzhora SS 220 kV Ecoprom with approaches of 2x3 km, 2x63 15 OL 220 kV Krasnodarskaya CHPP Kuban 2014 6.0 126.0 0.0 — MVA Kirillovskaya

16 SS 220 kV Taman' Kuban 2016 2x200 MVA 0.0 400.0 0.0

17 OL 220 kV Vyshesteblievskaya — Taman' Kuban 2016 35 km 35.0 0.0 0.0

18 OL 220 kV Buzhora — Taman' Kuban 2016 100 km 100.0 0.0 0.0

19 OL 220 kV Buzhora — Kirillovskaya Kuban 2016 38 km 38.0 0.0 0.0 SS 220 kV Kruglikovskaya with 2x20 km, 20 approaches of OL 220 kV Krasnodarskaya Kuban 2014 40.0 250.0 0.0 2x125 MVA CHPP — Vitaminkombinat (the 2d chain) SS 220 kV Afipskaya, installation of the 21 Kuban 2016 125 MVA 0.0 125.0 0.0 3rd AT 220/110 kV SS 220 kV Buzhora, installation of the 3rd 22 Kuban 2015 125 MVA 0.0 125.0 0.0 AT

23 SS 220 kV Kirillovskaya, Kuban 2019 200 MVA 0.0 200.0 0.0

SS220kVZapadnyobkhodwithOL220kVAndre 48 km, 40 24 evskaya—ZapadnyobkhodandAfipskaya—Z Kuban 2018 km, 2x125 88.0 250.0 0.0 apadnyobkhod MVA OL 220 kV Donetsk Promzona 25 — Rostov 2019 90 km90.0 0.0 0.0 (Millerovo)

26 OL 220 kV Rostovskaya 500 — R-4 Rostov 2019 50 km50.0 0.0 0.0

27 OL 220 kV G-20 — Donetsk Rostov 2019 41.9 km41.9 0.0 0.0 North Caucasus, 28 OL 110 kV Zaramag — Kvaysa North 2018 45 km 45.0 0.0 0.0 Ossetia Republic

140 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

16.0 250.0

400.0

35.0

100.0

38.0

125.0

125.0

200.0

88.0 250.0

90.0

50.0

41.9

45.0

한국전기산업연구원 141 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km total ing SS, MVA km MVA Mvar (Mvar) Construction of SS 220 kV Vostochnaya promzona with approaches of two OL 220 4x4 km, 11 Kuban 2015 16.0 250.0 0.0 kV Krasnodarskaya CHPP — 2x125 MVA Vitaminkombinat Construction of new OL 220 kV Kubanskaya — Kirillovskaya. SS Kubanskaya enlargement of SWYD 220 12 — Kuban 2014 20 km 20.0 0.0 0.0 kV with one cell. SS Kirillovskaya — enlargement of SWYD 220 kV (GIMCA) with one cell CJSC «NCZ Gorny» 30 km, 2x40 13 SS 220 kV NCZ Gorny with OL 220 kV Kuban 2014 30.0 80.0 0.0 MVA SS 220 kV of OBS-8 (oil booster station) 2x1 km, 2x25 14 with approaches of OL 220 kV Kuban 2014 2.0 50.0 0.0 MVA Kubanskaya — Buzhora SS 220 kV Ecoprom with approaches of 2x3 km, 2x63 15 OL 220 kV Krasnodarskaya CHPP Kuban 2014 6.0 126.0 0.0 — MVA Kirillovskaya

16 SS 220 kV Taman' Kuban 2016 2x200 MVA 0.0 400.0 0.0

17 OL 220 kV Vyshesteblievskaya — Taman' Kuban 2016 35 km 35.0 0.0 0.0

18 OL 220 kV Buzhora — Taman' Kuban 2016 100 km 100.0 0.0 0.0

19 OL 220 kV Buzhora — Kirillovskaya Kuban 2016 38 km 38.0 0.0 0.0 SS 220 kV Kruglikovskaya with 2x20 km, 20 approaches of OL 220 kV Krasnodarskaya Kuban 2014 40.0 250.0 0.0 2x125 MVA CHPP — Vitaminkombinat (the 2d chain) SS 220 kV Afipskaya, installation of the 21 Kuban 2016 125 MVA 0.0 125.0 0.0 3rd AT 220/110 kV SS 220 kV Buzhora, installation of the 3rd 22 Kuban 2015 125 MVA 0.0 125.0 0.0 AT

23 SS 220 kV Kirillovskaya, Kuban 2019 200 MVA 0.0 200.0 0.0

SS220kVZapadnyobkhodwithOL220kVAndre 48 km, 40 24 evskaya—ZapadnyobkhodandAfipskaya—Z Kuban 2018 km, 2x125 88.0 250.0 0.0 apadnyobkhod MVA OL 220 kV Donetsk Promzona 25 — Rostov 2019 90 km90.0 0.0 0.0 (Millerovo)

26 OL 220 kV Rostovskaya 500 — R-4 Rostov 2019 50 km50.0 0.0 0.0

27 OL 220 kV G-20 — Donetsk Rostov 2019 41.9 km41.9 0.0 0.0 North Caucasus, 28 OL 110 kV Zaramag — Kvaysa North 2018 45 km 45.0 0.0 0.0 Ossetia Republic

142 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction mln RUB mln RUB mln RUB mln RUB mln RUB

2,546.0 677.0 1,154.0 716.0 0.0

522.5 194.0 0.0 0.0 0.0

1,097.8 677.0 0.0 0.0 0.0

767.6 451.0 0.0 0.0 0.0

1,478.7 846.0 0.0 0.0 0.0

2,409.0 68.0 721.0 1,620.0 0.0

433.0 0.0 0.0 433.0 0.0

1,406.0 0.0 144.0 1,262.0 0.0

907.0 0.0 288.0 619.0 0.0

1,372.7 867.0 0.0 0.0 0.0

413.4 0.0 0.0 413.4 0.0

388.3 0.0 388.3 0.0 0.0

571.0 0.0 0.0 0.0 0.0

3,699.0 0.0 0.0 0.0 1,638.0

1,788.0 0.0 0.0 0.0 0.0

1,184.0 0.0 0.0 0.0 0.0

1,049.0 0.0 0.0 0.0 0.0

341.0 38.0 60.0 50.0 93.0

한국전기산업연구원 143 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Construction of SS 220 kV Vostochnaya promzona with approaches of two OL 220 4x4 km, 11 Kuban 2015 0.0 kV Krasnodarskaya CHPP — 2x125 MVA Vitaminkombinat Construction of new OL 220 kV Kubanskaya — Kirillovskaya. SS Kubanskaya enlargement of SWYD 220 12 — Kuban 2014 20 km 0.0 kV with one cell. SS Kirillovskaya — enlargement of SWYD 220 kV (GIMCA) with one cell CJSC «NCZ Gorny» 30 km, 2x40 13 SS 220 kV NCZ Gorny with OL 220 kV Kuban 2014 0.0 MVA SS 220 kV of OBS-8 (oil booster station) 2x1 km, 2x25 14 with approaches of OL 220 kV Kuban 2014 0.0 MVA Kubanskaya — Buzhora SS 220 kV Ecoprom with approaches of 2x3 km, 2x63 15 OL 220 kV Krasnodarskaya CHPP Kuban 2014 0.0 — MVA Kirillovskaya

16 SS 220 kV Taman' Kuban 2016 2x200 MVA 0.0

17 OL 220 kV Vyshesteblievskaya — Taman' Kuban 2016 35 km 0.0

18 OL 220 kV Buzhora — Taman' Kuban 2016 100 km 0.0

19 OL 220 kV Buzhora — Kirillovskaya Kuban 2016 38 km 0.0 SS 220 kV Kruglikovskaya with 2x20 km, 20 approaches of OL 220 kV Krasnodarskaya Kuban 2014 0.0 2x125 MVA CHPP — Vitaminkombinat (the 2d chain) SS 220 kV Afipskaya, installation of the 21 Kuban 2016 125 MVA 0.0 3rd AT 220/110 kV SS 220 kV Buzhora, installation of the 3rd 22 Kuban 2015 125 MVA 0.0 AT

23 SS 220 kV Kirillovskaya, Kuban 2019 200 MVA 201.0

SS220kVZapadnyobkhodwithOL220kVAndre 48 km, 40 24 evskaya—ZapadnyobkhodandAfipskaya—Z Kuban 2018 km, 2x125 2,061.0 apadnyobkhod MVA OL 220 kV Donetsk Promzona 25 — Rostov 2019 90 km 494.0 (Millerovo)

26 OL 220 kV Rostovskaya 500 — R-4 Rostov 2019 50 km 123.0

27 OL 220 kV G-20 — Donetsk Rostov 2019 41.9 km 125.0 North Caucasus, 28 OL 110 kV Zaramag — Kvaysa North 2018 45 km 100.0 Ossetia Republic

144 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 total development)

mln RUB mln RUB

JSC «FGC UES», JSC 0.0 2,547.0 «Kubanenergo»

0.0 194.0 JSC «FGC UES», JSC «Kubanenergo»

0.0 677.0 CJSC «NCZ Gorny»

0.0 451.0 JSC «FGC UES»

0.0 846.0 Investor

0.0 2,409.0 JSC «FGC UES»

0.0 433.0

0.0 1,406.0

0.0 907.0 JSC «FGC UES»

Municipalenergo- 0.0 867.0 servicecompany

0.0 413.4 JSC «FGC UES»

0.0 388.3 JSC «FGC UES»

370.0 571.0 JSC «FGC UES»

0.0 3,699.0 JSC «FGC UES»

1,294.0 1,788.0 JSC «FGC UES»

1,061.0 1,184.0 JSC «FGC UES»

924.0 1,049.0 JSC «FGC UES»

0.0 341.0 JSC «FGC UES»

한국전기산업연구원 145 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 0.0 250.0 0.0 power supply to existing consumers 500 kV 0.0 0.0 0.0 OL 500 kV Rostovskaya Shakhty with — 87.8 km, 29 enlargement of SS 500 kV Rostovskaya Rostov 2016 2x167 MVA (2d AT) OL 500 kV — 290 km, 2x15 km OL 220 kV OL500kVRostovskaya AndreevskayawithSS — 2x10 km, 500kVAndreevskayaandapproachesofOL500 — Rostov, 2x30 km 30 kVTikhoretsk KubanskayaandOL220kVVita 2016 — Kuban 668 MVA minkombinat Bryukhovetskayaand — 2xCSR Vitaminkombinat Slavyansk — (controlled shunt reactor) — 180 Stavropol, 265 km, 668 OL 500 kV Nevinnomyssk Mozdok with 31 — North 2016 MVA, SS 500 kV Mozdok Caucasus CSR-180 501 MVA + 32 SS500kVVardane Kuban 2019 167 MVA

Change-over of OL Centralnaya 33 — Kuban 2019 126.1 km Vardane to nominal voltage 500 kV

OL 500 kV Buzhora (Anapa) 170 km, 34 — Kuban 2019 Andreevskaya SR-180

OL500kVNovosvobodny—Chernomorskayaw 180 km, 50.4 35 ithSS500kVChernomorskaya,change-overofV Kuban 2019 km, 501 ardane—Chernomorskayasegmentto500kV MVA, SR-180 OL 500 kV Nevinnomyssk DP — Stavropol, 169 km, 36 (distributing point) Novosvobodny with DP 2019 Kuban SR-180 Novosvobodny 330 kV 0.0 250.0 0.0 Installation of the 2d AT at SS 330 kV 37 Dagestan 2014 125 MVA 125.0 Artyem Kabardino-B OL 330 kV Nalchik Vladikavkaz-2 with alkaria, 38 — 2016 143.63 km enlargement of SS 330 kV Vladikavkaz-2 North Caucasus SS 330 kV Sunzha with approaches of OL 2x90 km, 39 Chechnya 2018 330 kV Mozdok — Artyem 2x125 MVA SS 330 kV Il'enko with approaches of OL 330 kV (SS 330 kV Kislovodsk with 40 Stavropol 2015 125 MVA approaches of OL 330 kV Cherkessk — Baskan) (2d stage) SS 330 kV Kizlyar with approaches of OL 2x0.1 km, 41 Dagestan 2015.2016 330 kV Budyenovsk — Chiryut 2x125 MVA

146 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

249.0 250.0 0.0 896.4 1,795.0 540.0 0.0 0.0 0.0 180.0 450.0 0.0 521.0 1,419.0 540.0

0.0 0.0 0.0 752.8 1,670.0 540.0 0.0 0.0 0.0 0.0 0.0 0.0 519.0 1,169.0 540.0

87.8 334.0

320.0

80.0

668.0

360.0

265.0 668.0 180.0

668.0

170.0 180.0

180.0 501.0 180.0

169.0 180.0

249.0 250.0 0.0 143.6 125.0 0.0 0.0 0.0 0.0 180.0 450.0 0.0 2.0 250.0 0.0

143.6

180.0 250.0

125.0

0.2 125.0 125.0

한국전기산업연구원 147 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 1,846.4 4,164.0 1,080.0 power supply to existing consumers 500 kV 1,271.8 2,839.0 1,080.0 OL 500 kV Rostovskaya Shakhty — 87.8 km, 29 with enlargement of SS 500 kV Rostov 2016 87.8 334.0 0.0 2x167 MVA Rostovskaya (2d AT) OL 500 kV — 290 km, 320.0 0.0 0.0 2x15 km OL 220 kV OL500kVRostovskaya Andreevskayawit — 2x10 km, 80.0 0.0 0.0 hSS500kVAndreevskayaandapproacheso — Rostov, 2x30 km 30 fOL500kVTikhoretsk KubanskayaandOL 2016 — Kuban 668 MVA 0.0 668.0 0.0 220kVVitaminkombinat Bryukhovetskaya — 2xCSR and Vitaminkombinat Slavyansk — (controlled shunt 0.0 0.0 360.0 reactor) — 180 Stavropol, 265 km, 668 OL 500 kV Nevinnomyssk Mozdok 31 — North 2016 MVA, 265.0 668.0 180.0 with SS 500 kV Mozdok Caucasus CSR-180 501 MVA + 32 SS500kVVardane Kuban 2019 0.0 668.0 0.0 167 MVA

Change-over of OL Centralnaya 33 — Kuban 2019 126.1 km 0.0 0.0 0.0 Vardane to nominal voltage 500 kV

OL 500 kV Buzhora (Anapa) 170 km, 34 — Kuban 2019 170.0 0.0 180.0 Andreevskaya SR-180

OL500kVNovosvobodny Chernomorska — 180 km, 50.4 yawithSS500kVChernomorskaya,change- 35 Kuban 2019 km, 501 180.0 501.0 180.0 overofVardane Chernomorskayasegmen — MVA, SR-180 tto500kV OL 500 kV Nevinnomyssk DP — Stavropol, 169 km, 36 (distributing point) Novosvobodny with 2019 169.0 0.0 180.0 Kuban SR-180 DP Novosvobodny

330 kV 574.6 1,325.0 0.0 Installation of the 2d AT at SS 330 kV 37 Dagestan 2014 125 MVA 0.0 125.0 0.0 Artyem Kabardino- OL 330 kV Nalchik Vladikavkaz-2 — Balkaria, 38 with enlargement of SS 330 kV 2016 143.63 km 143.6 0.0 0.0 North Vladikavkaz-2 Caucasus SS 330 kV Sunzha with approaches of 2x90 km, 39 Chechnya 2018 180.0 250.0 0.0 OL 330 kV Mozdok — Artyem 2x125 MVA SS 330 kV Il'enko with approaches of OL 330 kV (SS 330 kV Kislovodsk with 40 Stavropol 2015 125 MVA 0.0 125.0 0.0 approaches of OL 330 kV Cherkessk — Baskan) (2d stage) SS 330 kV Kizlyar with approaches of 2x0.1 km, 41 Dagestan 2015.2016 0.2 250.0 0.0 OL 330 kV Budyenovsk — Chiryut 2x125 MVA

148 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

80,251.5 4,726.0 9,156.0 9,177.0 8,409.0

55,200.5 1,282.0 3,882.0 6,273.0 5,320.0

4,705.0 68.0 1,442.0 3,195.0 0.0

10,724.8 46.0 368.0 78.0 1,016.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

6,577.2 1,000.0 2,000.0 3,000.0 399.0

2,599.8 168.0 72.0 0.0 0.0

736.0 0.0 0.0 0.0 0.0

4,629.0 0.0 0.0 0.0 629.0

13,092.0 0.0 0.0 0.0 1,638.0

12,136.7 0.0 0.0 0.0 1,638.0

25,051.0 3,444.0 5,274.0 2,904.0 3,089.0

173.5 124.0 0.0 0.0 0.0

5,471.5 362.0 1,791.0 1,002.0 547.0

7,181.5 0.0 0.0 768.0 2,457.0

1,802.3 700.0 535.0 180.0 0.0

2,333.0 271.0 1,154.0 908.0 0.0

한국전기산업연구원 149 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric power 18,517.0 supply to existing consumers 500 kV 12,792.0 OL 500 kV Rostovskaya Shakhty with — 87.8 km, 29 enlargement of SS 500 kV Rostovskaya Rostov 2016 0.0 2x167 MVA (2d AT)

OL 500 kV — 290 km, 2x15 4,000.0 km OL 220 kV OL500kVRostovskaya—AndreevskayawithSS — 500kVAndreevskayaandapproachesofOL500 2x10 km, 0.0 Rostov, 2x30 km 30 kVTikhoretsk—KubanskayaandOL220kVVita 2016 Kuban 668 MVA 0.0 minkombinat—Bryukhovetskayaand Vitaminkombinat — Slavyansk 2xCSR (controlled 0.0 shunt reactor) — 180 Stavropol, 265 km, 668 OL 500 kV Nevinnomyssk Mozdok with 31 — North 2016 MVA, 0.0 SS 500 kV Mozdok Caucasus CSR-180

501 MVA + 32 SS500kVVardane Kuban 2019 700.0 167 MVA

Change-over of OL Centralnaya 33 — Kuban 2019 126.1 km 88.0 Vardane to nominal voltage 500 kV

OL 500 kV Buzhora (Anapa) 170 km, 34 — Kuban 2019 1,000.0 Andreevskaya SR-180

OL500kVNovosvobodny—Chernomorskayaw 180 km, 50.4 35 ithSS500kVChernomorskaya,change-overofV Kuban 2019 km, 501 MVA, 3,502.0 SR-180 ardane—Chernomorskayasegmentto500kV OL 500 kV Nevinnomyssk DP — Stavropol, 169 km, 36 (distributing point) Novosvobodny with DP 2019 3,502.0 Kuban SR-180 Novosvobodny

330 kV 5,725.0 Installation of the 2d AT at SS 330 kV 37 Dagestan 2014 125 MVA 0.0 Artyem Kabardino-B OL 330 kV Nalchik Vladikavkaz-2 with alkaria, 38 — 2016 143.63 km 0.0 enlargement of SS 330 kV Vladikavkaz-2 North Caucasus SS 330 kV Sunzha with approaches of OL 2x90 km, 39 Chechnya 2018 3,957.0 330 kV Mozdok — Artyem 2x125 MVA SS 330 kV Il'enko with approaches of OL 330 kV (SS 330 kV Kislovodsk with 40 Stavropol 2015 125 MVA 0.0 approaches of OL 330 kV Cherkessk — Baskan) (2d stage) SS 330 kV Kizlyar with approaches of OL 2x0.1 km, 41 Dagestan 2015.2016 0.0 330 kV Budyenovsk — Chiryut 2x125 MVA

150 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

24,675.0 74,660.0

23,561.0 53,110.0

0.0 4,705.0 JSC «FGC UES» P

4,009.0 9,517.0

0.0 0.0 JSC «FGC UES» P 0.0 0.0

0.0 0.0

0.0 6,399.0 JSC «FGC UES» P

955.0 1,895.0 JSC «FGC UES» P

648.0 736.0 JSC «FGC UES» P

3,000.0 4,629.0 JSC «FGC UES»

7,952.0 13,092.0 P

JSC «FGC UES»

6,997.0 12,137.0 P

1,114.0 21,550.0

0.0 124.0 JSC «FGC UES» C

0.0 3,702.0 JSC «FGC UES» C

0.0 7,182.0 JSC «FGC UES» P

0.0 1,415.0 JSC «FGC UES» C

0.0 2,333.0 JSC «FGC UES» P

한국전기산업연구원 151 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) SS 330 kV Kropotkin, installation of the 2d 42 Kuban 2018 200 MVA AT SS 330 kV Blagodarnaya, installation of 43 Stavropol 2014 125 MVA 125.0 the 2d AT

44 OL 330 kV Irganayskaya HPP — Chiryut Dagestan 2015 73.8 km

OL 330 kV Atryem — Derbent with 45 enlargement of SWYD 330 kV of SS Dagestan 2014 175 km Derbent SS 330 kV Alagir with approaches of OL North 2x1 km, 46 2019 330 kV Nalchik — Vladikavkaz-2 Caucasus 2x125 MVA Facilities of renovation with increasing of transformer capacity 0.0 625.0 0.0

500 kV 0.0 0.0 0.0 SS 500 kV Balashovskaya. Installation of 47 Volgograd 2015 SR-180 Mvar SR

330 kV 0.0 0.0 0.0 48 SS 330 kV Derbent (replacement of AT) Dagestan 2015.2017 2x200 MVA Kabardino- 49 SS 330 kV Prokhladnaya-2 2015 2x200 MVA Balkaria

220 kV 0.0 625.0 0.0 2x250 (new AT) + 250 50 SS 220 kV R-4 Rostov 2014 (modernization) 500.0 MVA, 2x40 + 2x25 Mvar

2x125 MVA (replacement 51 SS 220 kV Ust'-Labinsk Kuban 2016 of 2x63 MVA) 2x250 MVA, 52 SS 220 kV Gumrak Volgograd 2016 2x40 MVA 2x125 MVA (including SS 220 kV Bryukhovetskaya, replacement 53 Kuban 2014 replacement 125.0 of (30+63) MVA with 125 MVA of existing AT) new site — 2x250 + 63, 54 SS 220 kV Aluminievaya Volgograd 2015 old site — 4x200 MVA 200 MVA + 55 SS 220 kV Kirovskaya (the 2d stage) Volgograd 2015 2x80 MVA

Facilities of renovation with increasing of transformer capacity 609.0 1,881.0 180.0

500 kV 426.0 0.0 180.0 330 kV 45.0 500.0 0.0 220 kV 138.0 1,381.0 0.0

152 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

200.0

73.8

175.0

2.0 250.0

0.0 1,523.0 180.0 0.0 750.0 0.0 0.0 200.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

180.0

0.0 600.0 0.0 0.0 0.0 0.0 0.0 200.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 200.0 200.0

400.0

0.0 923.0 0.0 0.0 750.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

250.0

500.0

563.0

360.0

265.0 2,148.0 180.0 1,179.4 3,731.0 720.0 363.8 200.0 180.0 313.0 700.0 0.0 702.9 1,619.0 540.0

0.0 0.0 180.0 862.8 2,171.0 720.0 300.0 0.0 180.0 0.0 0.0 0.0 519.0 1,169.0 540.0 249.0 850.0 0.0 143.6 285.0 0.0 60.0 200.0 0.0 180.0 450.0 0.0 2.0 250.0 0.0 16.0 1,298.0 0.0 173.0 1,275.0 0.0 3.8 0.0 0.0 133.0 250.0 0.0 181.9 200.0 0.0

한국전기산업연구원 153 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) SS 330 kV Kropotkin, installation of the 42 Kuban 2018 200 MVA 0.0 200.0 0.0 2d AT SS 330 kV Blagodarnaya, installation 43 Stavropol 2014 125 MVA 0.0 125.0 0.0 of the 2d AT OL 330 kV Irganayskaya HPP 44 — Dagestan 2015 73.8 km 73.8 0.0 0.0 Chiryut

OL 330 kV Atryem — Derbent with 45 enlargement of SWYD 330 kV of SS Dagestan 2014 175 km 175.0 0.0 0.0 Derbent SS 330 kV Alagir with approaches of North 2x1 km, 46 2019 2.0 250.0 0.0 OL 330 kV Nalchik — Vladikavkaz-2 Caucasus 2x125 MVA Facilities of renovation with increasing of transformer capacity 0.0 3,098.0 180.0

500 kV 0.0 0.0 180.0 SS 500 kV Balashovskaya. Installation 47 Volgograd 2015 SR-180 Mvar 0.0 0.0 180.0 of SR

330 kV 0.0 800.0 0.0 SS 330 kV Derbent (replacement of 48 Dagestan 2015.2017 2x200 MVA 0.0 400.0 0.0 AT) Kabardino- 49 SS 330 kV Prokhladnaya-2 2015 2x200 MVA 0.0 400.0 0.0 Balkaria

220 kV 0.0 2,298.0 0.0 2x250 (new AT) + 250 (modernizatio 50 SS 220 kV R-4 Rostov 2014 0.0 500.0 0.0 n) MVA, 2x40 + 2x25 Mvar 2x125 MVA (replacement 51 SS 220 kV Ust'-Labinsk Kuban 2016 0.0 250.0 0.0 of 2x63 MVA) 2x250 MVA, 52 SS 220 kV Gumrak Volgograd 2016 0.0 500.0 0.0 2x40 MVA 2x125 MVA SS 220 kV Bryukhovetskaya, (including 53 replacement of (30+63) MVA with 125 Kuban 2014 replacement 0.0 125.0 0.0 MVA of existing AT) new site — 2x250 + 63, 54 SS 220 kV Aluminievaya Volgograd 2015 0.0 563.0 0.0 old site — 4x200 MVA 200 MVA + 55 SS 220 kV Kirovskaya (the 2d stage) Volgograd 2015 0.0 360.0 0.0 2x80 MVA

Facilities of renovation with increasing of transformer capacity 3,433.1 10,279.0 1,800.0

500 kV 2,107.8 3,340.0 1,800.0 330 kV 679.6 2,535.0 0.0 220 kV 645.7 4,404.0 0.0

154 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

167.0 0.0 19.0 46.0 85.0

176.3 74.0 33.0 0.0 0.0

1,821.0 677.0 1,144.0 0.0 0.0

3,059.9 1,236.0 598.0 0.0 0.0

2,865.0 0.0 0.0 0.0 0.0

14,694.3 2,476.0 2,118.0 2,284.0 343.0

722.0 135.0 587.0 0.0 0.0

722.0 135.0 587.0 0.0 0.0

1,534.1 189.0 344.0 521.0 343.0 685.0 68.0 144.0 230.0 243.0

849.1 121.0 200.0 291.0 100.0

12,438.2 2,152.0 1,187.0 1,763.0 0.0

2,489.6 289.0 0.0 0.0 0.0

616.0 10.0 27.0 579.0 0.0

2,230.0 500.0 500.0 1,184.0 0.0

1,322.6 1,000.0 0.0 0.0 0.0

3,570.0 110.0 376.0 0.0 0.0

2,210.0 243.0 284.0 0.0 0.0

156,797.6 15,705.0 18,984.3 26,560.4 17,929.0

84,338.5 3,638.0 8,722.0 13,094.0 12,469.0 34,720.6 4,744.0 6,320.0 6,580.0 3,432.0 37,738.5 7,323.0 3,942.3 6,886.4 2,028.0

한국전기산업연구원 155 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) SS 330 kV Kropotkin, installation of the 2d 42 Kuban 2018 200 MVA 17.0 AT SS 330 kV Blagodarnaya, installation of 43 Stavropol 2014 125 MVA 0.0 the 2d AT

44 OL 330 kV Irganayskaya HPP — Chiryut Dagestan 2015 73.8 km 0.0

OL 330 kV Atryem — Derbent with 45 enlargement of SWYD 330 kV of SS Dagestan 2014 175 km 0.0 Derbent SS 330 kV Alagir with approaches of OL North 2x1 km, 46 2019 1,751.0 330 kV Nalchik — Vladikavkaz-2 Caucasus 2x125 MVA Facilities of renovation with increasing of transformer capacity 0.0

500 kV 0.0 SS 500 kV Balashovskaya. Installation of 47 Volgograd 2015 SR-180 Mvar 0.0 SR

330 kV 0.0 48 SS 330 kV Derbent (replacement of AT) Dagestan 2015.2017 2x200 MVA 0.0 Kabardino-B 49 SS 330 kV Prokhladnaya-2 2015 2x200 MVA 0.0 alkaria

220 kV 0.0 2x250 (new AT) + 250 (modernizatio 50 SS 220 kV R-4 Rostov 2014 0.0 n) MVA, 2x40 + 2x25 Mvar 2x125 MVA (replacement 51 SS 220 kV Ust'-Labinsk Kuban 2016 0.0 of 2x63 MVA) 2x250 MVA, 52 SS 220 kV Gumrak Volgograd 2016 0.0 2x40 MVA 2x125 MVA (including SS 220 kV Bryukhovetskaya, replacement 53 Kuban 2014 replacement 0.0 of (30+63) MVA with 125 MVA of existing AT) new site — 2x250 + 63, 54 SS 220 kV Aluminievaya Volgograd 2015 0.0 old site — 4x200 MVA 200 MVA + 55 SS 220 kV Kirovskaya (the 2d stage) Volgograd 2015 0.0 2x80 MVA

Facilities of renovation with increasing of transformer capacity 27,141.0

500 kV 17,292.0 330 kV 6,725.0 220 kV 3,124.0

156 Russian Energy Systems Market Research 부록 1

Capital investments (money Capital investments (money of the day, including VAT) of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 167.0 JSC «FGC UES» P

0.0 107.0 JSC «FGC UES» P

0.0 1,821.0 JSC «FGC UES» P

0.0 1,834.0 JSC «FGC UES» C

1,114.0 2,865.0 JSC «FGC UES» P

0.0 7,221.0

0.0 722.0

0.0 722.0 JSC «FGC UES»

0.0 1,397.0 0.0 685.0 JSC «FGC UES» P

0.0 712.0 JSC «FGC UES»

0.0 5,102.0

0.0 289.0 JSC «FGC UES» C

0.0 616.0 JSC «FGC UES»

0.0 2,184.0 JSC «FGC UES» P

0.0 1,000.0 JSC «FGC UES»

0.0 486.0 JSC «FGC UES» C

0.0 527.0 JSC «FGC UES» C

29,588.0 135,907.7

24,722.0 79,937.0 1,217.0 29,018.0 3,649.0 26,952.7

한국전기산업연구원 157 러시아 에너지시스템 시장 현황

마. UPS of Mid-Volga

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 5.0 0.0 0.0 HPP 0.0 0.0 0.0 500 kV 0.0 0.0 0.0 OL 500 kV Nizhegorogskaya NPP Nizhni 1 — 2019 60 km Batashevo (Raduga-2) Novgorod Approaches of OL 500 kV Raduga Nizhni 2 — 2019 2x60 km Arzamasskaya at Nizhegorogskaya NPP Novgorod 220 kV 0.0 0.0 0.0 OL 220 kV Balakovskaya NPP 3 — Saratov 2018 26 km Centralnaya (3rd chain) TPP 5.0 0.0 0.0 220 kV 5.0 0.0 0.0 Approaches of OL 220 kV Nizhni 4 Nizhegorogskaya Zeletsino at 2014 2x2.5 km 5.0 — Novgorod Nizhegorogskaya CHPP

Providing the opportunity of hooking up new consumers, and also implementation of technical 5.4 750.0 0.0 specifications 500 kV 5.4 750.0 0.0 Enlargement of SS 500 kV Raduga, AT-6 Nizhni 5 2015 250 MVA 500/110 kV Novgorod

SS 500 kV Luch, installation of AT Nizhni 6 2014 250 MVA 250.0 500/110 kV Novgorod

SS 500 kV Elabuga with approaches of 2x500 MVA 7 OL 500 kV Nizhnekamskaya HPP — Tatarstan 2014-2015 2x250 MVA 500.0 Udmurtskaya 2x2.7 km 5.4 SS 500 kV Krasnoarmeyskaya (installation of the 2d AT group) with approaches of 2x0.5 km, 8 Samara 2019 OL 500 kV Balakovskaya NPP — 801 MVA Kuybyshevskaya (2d chain) SS 500 kV Batashevo (Raduga-2) with Nizhni 3x250 MVA, 9 approaches of one of OL 500 kV 2019 Novgorod 2x5 km Vladimirskaya — Raduga Nizhni OL 500 kV Batashevo (Raduga-2) 10 — Novgorod, 2019 150 km Vladimirskaya Vladimir 220 kV 0.0 0.0 0.0 Two OL 220 kV Novaya Pis'myanka 11 — Tatarstan 2015 2x13 km MSDS Tatstal

Approaches of OL 220 kV Bugulma — 12 Uzlovaya at SS 220 kV Novaya Tatarstan 2015 2x10 km Pis'myanka

OL 220 kV Elabuga MSDS of oil 13 — Tatarstan 2015 50 km refinery and petrochemical plant

158 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 26.0 0.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 26.0 0.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 180.0 0.0 0.0

60.0

120.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 26.0 0.0 0.0 0.0 0.0 0.0

26.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

309.0 1,376.0 0.0 95.0 325.0 0.0 2.0 125.0 0.0 112.0 0.0 0.0 170.0 2,076.0 0.0

0.0 1,250.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 161.0 1,551.0 0.0

250.0

1,000.0

1.0 801.0

10.0 750.0

150.0

309.0 126.0 0.0 95.0 325.0 0.0 2.0 125.0 0.0 112.0 0.0 0.0 9.0 525.0 0.0

26.0

20.0

50.0

한국전기산업연구원 159 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 211.0 0.0 0.0

HPP 206.0 0.0 0.0 500 kV 180.0 0.0 0.0

OL 500 kV Nizhegorogskaya NPP — Nizhni 1 Batashevo (Raduga-2) Novgorod 2019 60 km 60.0 0.0 0.0

Approaches of OL 500 kV Raduga Nizhni 2 — 2019 2x60 km 120.0 0.0 0.0 Arzamasskaya at Nizhegorogskaya NPP Novgorod

220 kV 26.0 0.0 0.0 OL 220 kV Balakovskaya NPP — 3 Centralnaya (3rd chain) Saratov 2018 26 km 26.0 0.0 0.0

TPP 5.0 0.0 0.0 220 kV 5.0 0.0 0.0 Approaches of OL 220 kV 4 Nizhegorogskaya Zeletsino at Nizhni 2014 2x2.5 km 5.0 0.0 0.0 — Novgorod Nizhegorogskaya CHPP

Providing the opportunity of hooking up new consumers, and also implementation of technical 693.4 4,652.0 0.0 specifications 500 kV 166.4 3,551.0 0.0

Enlargement of SS 500 kV Raduga, AT-6 Nizhni 5 2015 250 MVA 0.0 250.0 0.0 500/110 kV Novgorod

SS 500 kV Luch, installation of AT Nizhni 6 2014 250 MVA 0.0 250.0 0.0 500/110 kV Novgorod

2x500 MVA 0.0 1,000.0 0.0 SS 500 kV Elabuga with approaches of 7 OL 500 kV Nizhnekamskaya HPP — Tatarstan 2014-2015 2x250 MVA 0.0 500.0 0.0 Udmurtskaya 2x2.7 km 5.4 0.0 0.0 SS 500 kV Krasnoarmeyskaya (installation 8 of the 2d AT group) with approaches of Samara 2019 2x0.5 km, 1.0 801.0 0.0 OL 500 kV Balakovskaya NPP — 801 MVA Kuybyshevskaya (2d chain)

SS 500 kV Batashevo (Raduga-2) with Nizhni 3x250 MVA, 9 approaches of one of OL 500 kV 2019 10.0 750.0 0.0 Novgorod 2x5 km Vladimirskaya — Raduga Nizhni 10 OL 500 kV Batashevo (Raduga-2) — Novgorod, 2019 150 km 150.0 0.0 0.0 Vladimirskaya Vladimir

220 kV 527.0 1,101.0 0.0

11 Two OL 220 kV Novaya Pis'myanka — Tatarstan 2015 2x13 km 26.0 0.0 0.0 MSDS Tatstal

Approaches of OL 220 kV Bugulma — 12 Uzlovaya at SS 220 kV Novaya Tatarstan 2015 2x10 km 20.0 0.0 0.0 Pis'myanka

13 OL 220 kV Elabuga — MSDS of oil Tatarstan 2015 50 km 50.0 0.0 0.0 refinery and petrochemical plant

160 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2016 2015 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

9,052.5 54.0 0.0 430.3 2,620.5

8,994.1 0.0 0.0 430.3 2,620.5

8,387.8 0.0 0.0 332.4 2,374.8

3,101.0 0.0 0.0 113.0 818.9

5,286.8 0.0 0.0 219.4 1,555.9

606.3 0.0 0.0 97.9 245.7 606.3 0.0 0.0 97.9 245.7

58.4 54.0 0.0 0.0 0.0

58.4 54.0 0.0 0.0 0.0

58.4 54.0 0.0 0.0 0.0

30,956.6 5,755.4 6,379.4 5,993.7 5,800.7

14,834.9 2,648.8 3,111.3 2,918.0 3,173.0

917.0 196.0 721.0 0.0 0.0

410.0 305.6 52.2 0.0 0.0

5,088.0 1,488.8 1,586.2 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

1,547.9 50.0 151.9 518.0 673.0

6,872.0 608.4 600.0 2,400.0 2,500.0

0.0 0.0 0.0 0.0 0.0

16,121.7 3,106.6 3,268.1 3,075.7 2,627.7

555.8 267.4 288.4 0.0 0.0

485.7 197.3 288.4 0.0 0.0

551.4 263.0 288.4 0.0 0.0

한국전기산업연구원 161 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 2,801.9

HPP 2,801.9

500 kV 2,539.2 OL 500 kV Nizhegorogskaya NPP Nizhni 1 — 2019 60 km 875.6 Batashevo (Raduga-2) Novgorod

2 Approaches of OL 500 kV Raduga — Nizhni 2019 2x60 km 1,663.6 Arzamasskaya at Nizhegorogskaya NPP Novgorod

220 kV 262.7 OL 220 kV Balakovskaya NPP 3 — Saratov 2018 26 km 262.7 Centralnaya (3rd chain)

TPP 0.0

220 kV 0.0 Approaches of OL 220 kV Nizhni 4 Nizhegorogskaya — Zeletsino at Novgorod 2014 2x2.5 km 0.0 Nizhegorogskaya CHPP

Providing the opportunity of hooking up new consumers, and also implementation of technical 2,584.8 specifications 500 kV 857.3

5 Enlargement of SS 500 kV Raduga, AT-6 Nizhni 2015 250 MVA 0.0 500/110 kV Novgorod

SS 500 kV Luch, installation of AT Nizhni 6 2014 250 MVA 0.0 500/110 kV Novgorod

2x500 MVA 0.0 SS 500 kV Elabuga with approaches of 7 OL 500 kV Nizhnekamskaya HPP — Tatarstan 2014-2015 2x250 MVA 0.0 Udmurtskaya 2x2.7 km 0.0 SS 500 kV Krasnoarmeyskaya (installation 8 of the 2d AT group) with approaches of Samara 2019 2x0.5 km, 155.0 OL 500 kV Balakovskaya NPP — 801 MVA Kuybyshevskaya (2d chain) SS 500 kV Batashevo (Raduga-2) with 9 approaches of one of OL 500 kV Nizhni 2019 3x250 MVA, 702.3 Novgorod 2x5 km Vladimirskaya — Raduga OL 500 kV Batashevo (Raduga-2) Nizhni 10 — Novgorod, 2019 150 km 0.0 Vladimirskaya Vladimir

220 kV 1,727.5 Two OL 220 kV Novaya Pis'myanka 11 — Tatarstan 2015 2x13 km 0.0 MSDS Tatstal

Approaches of OL 220 kV Bugulma — 12 Uzlovaya at SS 220 kV Novaya Tatarstan 2015 2x10 km 0.0 Pis'myanka

OL 220 kV Elabuga — MSDS of oil 13 refinery and petrochemical plant Tatarstan 2015 50 km 0.0

162 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

3,141.4 9,048.1

3,141.4 8,994.1

3,141.4 8,387.8

1,293.5 3,101.0 JSC «FGC UES»

1,847.9 5,286.8 JSC «FGC UES»

0.0 606.3 0.0 606.3 JSC «FGC UES»

0.0 54.0

0.0 54.0

0.0 54.0 JSC «FGC UES»

1,847.9 28,361.9

0.0 12,708.4

0.0 917.0 JSC «FGC UES»

0.0 357.8 JSC «FGC UES» C

0.0 3,075.0 JSC «Grid company» 0.0 0.0 0.0 0.0

0.0 1,547.9 JSC «FGC UES»

0.0 6,810.7 JSC «FGC UES»

0.0 0.0 JSC «FGC UES»

1,847.9 15,653.5

0.0 555.8 JSC «Tatstal»

0.0 485.7 JSC «Tatstal»

0.0 551.4 JSC «Taneko»

한국전기산업연구원 163 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Svyatostar (Sarovskaya) with 14 approaches of OL 220 kV Sasovo Nizhni 2015 2x63 MVA, — Novgorod 2x0.5 km Arzamasskaya

SS 220 kV Nagornaya, installation of the Nizhni 15 2016 200 MVA 4th AT 220/110 kV Novgorod SS 220 kV Chkalovskaya (Sennaya) 2x200 MVA, 16 (closed) with cable approaches of OL 220 Nizhni 2019 2x2 km, 2x2 kV: Nizhegorodskaya Borskaya, Novgorod — km Nagornaya — Borskaya

OL 220 kV Krasnoarmeyskaya — Novokuybyshevskaya, cutting of OL 220 kV Orlovskaya — Tomylovskaya and 17 further construction of segments of OL Samara 2018 2x56 km Krasnoarmeyskaya — Orlovskaya and OL 200 kV Tomylovskaya — Novokuybyshevskaya

OL 220 kV Rtischevo — Tamala, OL 220 Saratov, 54 km, 106 18 kV Rtischevo Kalais and OL 220 kV Tambov, 2015 — km, 52 km Tamala — Kalais Penza SS 220 kV near Sursk city with 19 approaches of OL 220 kV Klyuchiki Penza 2019 125 MVA, — 2x0.5 km Penza-I

Installation of the 2d AT 220/110 kV at SS Mordovia, 125 MVA, 95 20 Komsomolskaya and construction of OL Nizhni 2016 km 220 kV Osinovka — Komsomolskaya Novgorod

21 SS 220 kV Katrasi with approaches of OL Chuvashia 2017 125 MVA, 220 kV Cheboksary HPP — Venets 2x1 km Facilities for relieving of transmission constraints and reinforcement of reliability of electric 170.0 0.0 180.0 power supply to existing consumers 500 kV 0.0 0.0 180.0

Nizhni 22 SS 500 kV Raduga, installation of SR-180 Novgorod 2014 SR-180 180.0

160 km, OL 500 kV Balakovskaya NPP — Klyuchiki Saratov, 23 (2d OL) Ulyanovsk 2018 SR-180, CSR-180

OL500kVKlyuchiki Penza-IIwithenlargement Ulyanovsk, 200 km, 24 — 2019 ofSSKlyuchiki Penza CSR-180

220 kV 170.0 0.0 0.0

Double-circuit OL 220 kV Elabuga — 25 Centralnaya Tatarstan 2017 2x230 km

OL 220 kV Semenovskaya — Uzlovaya Nizhni 26 with enlargement of SS 220 kV 2014 170 km 170.0 Semenovskaya Novgorod

OL 220 kV Semenovskaya — Borskaya Nizhni 27 (2d) Novgorod 2018 62 km

28 OL220kVRyzhevskaya(Manturovo)— Nizhni 2019 130 km Uzlovaya Novgorod

29 SS 220 kV Kud'ma, installation of the 2d Nizhni 2015 125MVA AT 220/110 kV Novgorod

164 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

1.0 126.0

200.0

8.0 400.0

112.0

212.0

1.0 125.0

95.0 125.0

2.0 125.0

0.0 125.0 0.0 0.0 0.0 0.0 460.0 0.0 0.0 222.0 0.0 360.0 406.7 250.0 180.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 160.0 0.0 360.0 200.0 0.0 180.0

160.0 360.0

200.0 180.0

0.0 125.0 0.0 0.0 0.0 0.0 460.0 0.0 0.0 62.0 0.0 0.0 206.7 250.0 0.0

460.0

62.0

130.0

한국전기산업연구원 165 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) SS 220 kV Svyatostar (Sarovskaya) with 14 approaches of OL 220 kV Sasovo Nizhni 2015 2x63 MVA, 1.0 126.0 0.0 — Novgorod 2x0.5 km Arzamasskaya

SS 220 kV Nagornaya, installation of the Nizhni 15 2016 200 MVA 0.0 200.0 0.0 4th AT 220/110 kV Novgorod

SS 220 kV Chkalovskaya (Sennaya) 2x200 MVA, 16 (closed) with cable approaches of OL 220 Nizhni 2019 2x2 km, 2x2 8.0 400.0 0.0 kV: Nizhegorodskaya Borskaya, Novgorod — km Nagornaya — Borskaya

OL 220 kV Krasnoarmeyskaya — Novokuybyshevskaya, cutting of OL 220 kV Orlovskaya — Tomylovskaya and 17 further construction of segments of OL Samara 2018 2x56 km 112.0 0.0 0.0 Krasnoarmeyskaya — Orlovskaya and OL 200 kV Tomylovskaya — Novokuybyshevskaya

OL 220 kV Rtischevo — Tamala, OL 220 Saratov, 54 km, 106 18 kV Rtischevo Kalais and OL 220 kV Tambov, 2015 212.0 0.0 0.0 — km, 52 km Tamala — Kalais Penza SS 220 kV near Sursk city with 19 approaches of OL 220 kV Klyuchiki Penza 2019 125 MVA, 1.0 125.0 0.0 — 2x0.5 km Penza-I

Installation of the 2d AT 220/110 kV at SS Mordovia, 125 MVA, 20 Komsomolskaya and construction of OL Nizhni 2016 95 km 95.0 125.0 0.0 220 kV Osinovka — Komsomolskaya Novgorod

21 SS 220 kV Katrasi with approaches of OL Chuvashia 2017 125 MVA, 2.0 125.0 0.0 220 kV Cheboksary HPP — Venets 2x1 km Facilities for relieving of transmission constraints and reinforcement of reliability of electric 1,258.7 375.0 720.0 power supply to existing consumers 500 kV 360.0 0.0 720.0

Nizhni 22 SS 500 kV Raduga, installation of SR-180 Novgorod 2014 SR-180 0.0 0.0 180.0

160 km, OL 500 kV Balakovskaya NPP — Klyuchiki Saratov, 23 (2d OL) Ulyanovsk 2018 SR-180, 160.0 0.0 360.0 CSR-180

OL500kVKlyuchiki Penza-IIwithenlargement Ulyanovsk, 200 km, 24 — 2019 200.0 0.0 180.0 ofSSKlyuchiki Penza CSR-180

220 kV 898.7 375.0 0.0

Double-circuit OL 220 kV Elabuga — 25 Centralnaya Tatarstan 2017 2x230 km 460.0 0.0 0.0

OL 220 kV Semenovskaya — Uzlovaya Nizhni 26 with enlargement of SS 220 kV 2014 170 km 170.0 0.0 0.0 Semenovskaya Novgorod

OL 220 kV Semenovskaya — Borskaya Nizhni 27 (2d) Novgorod 2018 62 km 62.0 0.0 0.0

28 OL220kVRyzhevskaya(Manturovo)— Nizhni 2019 130 km 130.0 0.0 0.0 Uzlovaya Novgorod

29 SS 220 kV Kud'ma, installation of the 2d Nizhni 2015 125MVA 0.0 125.0 0.0 AT 220/110 kV Novgorod

166 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

555.8 267.4 288.4 0.0 0.0

485.7 197.3 288.4 0.0 0.0

551.4 263.0 288.4 0.0 0.0

1,529.0 676.7 576.8 0.0 0.0

907.8 0.0 140.2 767.6 0.0

3,793.0 0.0 82.9 568.0 982.7

1,270.0 90.0 150.0 401.0 500.0

1,556.0 905.5 432.0 178.5 0.0

1,087.0 0.0 0.0 0.0 0.0

2,011.0 676.7 721.0 460.6 0.0

2,375.0 30.0 300.0 700.0 1,145.0

29,632.1 2,092.1 2,110.6 6,642.6 11,492.5

15,363.6 590.3 488.4 3,955.8 7,056.8

611.0 590.3 0.0 0.0 0.0

7,626.7 0.0 288.4 2,302.8 2,456.8

7,125.9 0.0 200.0 1,653.0 4,600.0

14,268.5 1,501.8 1,622.2 2,686.8 4,435.7

4,635.0 160.1 787.3 1,704.0 1,823.9

1,365.0 1,050.4 301.5 0.0 0.0

한국전기산업연구원 167 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) SS 220 kV Svyatostar (Sarovskaya) with Nizhni 2x63 MVA, 14 approaches of OL 220 kV Sasovo — Novgorod 2015 2x0.5 km 0.0 Arzamasskaya

15 SS 220 kV Nagornaya, installation of the Nizhni 2016 200 MVA 0.0 4th AT 220/110 kV Novgorod

SS 220 kV Chkalovskaya (Sennaya) (closed) with cable approaches of OL 220 Nizhni 2x200 MVA, 16 2019 2x2 km, 1,050.7 kV: Nizhegorodskaya — Borskaya, Novgorod 2x2 km Nagornaya — Borskaya

OL 220 kV Krasnoarmeyskaya — Novokuybyshevskaya, cutting of OL 220 kV Orlovskaya — Tomylovskaya and 17 further construction of segments of OL Samara 2018 2x56 km 129.0 Krasnoarmeyskaya — Orlovskaya and OL 200 kV Tomylovskaya — Novokuybyshevskaya

OL 220 kV Rtischevo Tamala, OL 220 Saratov, — 54 km, 106 18 kV Rtischevo — Kalais and OL 220 kV Tambov, 2015 km, 52 km 0.0 Tamala — Kalais Penza SS 220 kV near Sursk city with 125 MVA, 19 approaches of OL 220 kV Klyuchiki — Penza 2019 2x0.5 km 347.8 Penza-I

Installation of the 2d AT 220/110 kV at SS Mordovia, 125 MVA, 20 Komsomolskaya and construction of OL Nizhni 2016 95 km 0.0 220 kV Osinovka — Komsomolskaya Novgorod

21 SS 220 kV Katrasi with approaches of OL Chuvashia 2017 125 MVA, 200.0 220 kV Cheboksary HPP — Venets 2x1 km Facilities for relieving of transmission constraints and reinforcement of reliability of electric 5,467.9 power supply to existing consumers

500 kV 3,251.6

22 SS 500 kV Raduga, installation of SR-180 Nizhni 2014 SR-180 0.0 Novgorod

OL 500 kV Balakovskaya NPP Klyuchiki Saratov, 160 km, 23 — 2018 SR-180, 2,578.7 (2d OL) Ulyanovsk CSR-180

OL500kVKlyuchiki—Penza-IIwithenlargement Ulyanovsk, 200 km, 24 ofSSKlyuchiki Penza 2019 CSR-180 672.9

220 kV 2,216.3

Double-circuit OL 220 kV Elabuga — 25 Centralnaya Tatarstan 2017 2x230 km 0.0

OL 220 kV Semenovskaya — Uzlovaya Nizhni 26 with enlargement of SS 220 kV 2014 170 km 0.0 Semenovskaya Novgorod

27 OL 220 kV Semenovskaya — Borskaya Nizhni 2018 62 km 525.3 (2d) Novgorod

OL220kVRyzhevskaya(Manturovo) Nizhni 28 — 2019 130 km 875.6 Uzlovaya Novgorod

SS 220 kV Kud'ma, installation of the 2d Nizhni 29 AT 220/110 kV Novgorod 2015 125MVA 0.0

168 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 1,253.5 JSC «FGC UES»

0.0 907.8 JSC «FGC UES»

1,108.7 3,793.0 JSC «FGC UES»

0.0 1,270.0 JSC «FGC UES»

0.0 1,516.0 JSC «FGC UES»

739.2 1,087.0 JSC «FGC UES»

0.0 1,858.3 JSC «FGC UES»

0.0 2,375.0 JSC «FGC UES»

1,615.6 29,421.3

0.0 15,342.9

0.0 590.3 JSC «FGC UES»

0.0 7,626.7 JSC «FGC UES»

0.0 7,125.9 JSC «FGC UES»

1,615.6 14,078.4

0.0 4,475.3 JSC «Grid company»

0.0 1,351.9 JSC «FGC UES»

0.0 1,285.9 JSC «FGC UES»

369.6 2,457.9 JSC «FGC UES»

0.0 579.7 JSC «FGC UES»

한국전기산업연구원 169 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Liquidation of «T-connector» at OL 220 kV 30 Kinelskaya — Uralskaya (approach at SS Samara 2019 9.3 km Yuzhnaya)

31 The 2d OL 220 kV Penza-I — Penza-II Penza 2019 50 km

Further construction of double-circuit OL 220 kV from Ulyanovskaya CHPP-2 and 32 its tie-in in OL 220 kV Ulyanovsk 2019 2x8.7 km Kremenki-Ulyanovskaya

SS 220 kV Raspredelitelnaya with 33 change-over to project voltage of two OL Saratov 2019 250 MVA Kurdyum — Raspredelitelnaya

Interconnection power transmission lines 394.7 0.0 360.0

500 kV 394.7 0.0 360.0 Kostroma, OL 500 kV Kostromskaya SDPP — 286 km, 34 Nizhni 2016 Nizhegorodskaya Novgorod SR-180 394.7 km 35 OL 500 kV Gazovaya — Orenburg, 2014 394.7 Krasnoarmeyskaya Samara 2xSR-180 360.0

Facilities of renovation with increasing of transformer capacity 0.0 0.0 0.0

220 kV 0.0 0.0 0.0

Reconructuion of SS 220 kV Kutlu Bukash 36 (replacement of AT 220/110 kV 2x63 MVA Tatarstan 2015 2x125 MVA with 2x125 MVA)

SS 220 kV Solnechnaya (reconstruction 37 with increasing capacity, replacement of Samara 2016 2x200 MVA AT 220/110 kV 2x125 with 2x200 MVA)

SS 220 kV Kinelskaya (reconstruction with 38 increasing capacity, replacement of AT Samara 2019 2x200 MVA 220/110 kV 2x180 with 2x200 MVA)

SS 220 kV Vasilievskaya (reconstruction 39 with increasing capacity, replacement of Samara 2015 2x250 MVA AT 220/110 kV 2x200 with 2x250 MVA)

Facilities of renovation with increasing of transformer capacity 575.1 750.0 540.0

500 kV 400.1 750.0 540.0

220 kV 175.0 0.0 0.0

170 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

9.3

50.0

17.4

250.0

0.0 0.0 0.0 286.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 286.0 0.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

286.0 180.0

0.0 750.0 0.0 0.0 400.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 400.0 0.0

0.0 750.0 0.0 0.0 400.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 400.0 0.0

250.0

400.0

400.0

500.0

309.0 2,251.0 0.0 381.0 725.0 180.0 462.0 125.0 0.0 360.0 0.0 360.0 756.7 2,726.0 180.0

0.0 1,250.0 0.0 286.0 0.0 180.0 0.0 0.0 0.0 160.0 0.0 360.0 541.0 1,551.0 180.0

309.0 1,001.0 0.0 95.0 725.0 0.0 462.0 125.0 0.0 200.0 0.0 0.0 215.7 1,175.0 0.0

한국전기산업연구원 171 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Liquidation of «T-connector» at OL 220 30 kV Kinelskaya — Uralskaya (approach Samara 2019 9.3 km 9.3 0.0 0.0 at SS Yuzhnaya)

31 The 2d OL 220 kV Penza-I — Penza-II Penza 2019 50 km 50.0 0.0 0.0

Further construction of double-circuit OL 220 kV from Ulyanovskaya CHPP-2 32 and its tie-in in OL 220 kV Ulyanovsk 2019 2x8.7 km 17.4 0.0 0.0 Kremenki-Ulyanovskaya

SS 220 kV Raspredelitelnaya with 33 change-over to project voltage of two Saratov 2019 250 MVA 0.0 250.0 0.0 OL Kurdyum — Raspredelitelnaya

Interconnection power transmission lines 680.7 0.0 540.0

500 kV 680.7 0.0 540.0

OL 500 kV Kostromskaya SDPP Kostroma, 286 km, 34 — Nizhni 2016 286.0 0.0 180.0 Nizhegorodskaya Novgorod SR-180

OL 500 kV Gazovaya Orenburg, 394.7 km 394.7 0.0 0.0 35 — 2014 Krasnoarmeyskaya Samara 2xSR-180 0.0 0.0 360.0

Facilities of renovation with increasing of transformer capacity 0.0 1,550.0 0.0

220 kV 0.0 1,550.0 0.0

Reconructuion of SS 220 kV Kutlu 36 Bukash (replacement of AT 220/110 kV Tatarstan 2015 2x125 MVA 0.0 250.0 0.0 2x63 MVA with 2x125 MVA)

SS 220 kV Solnechnaya (reconstruction 37 with increasing capacity, replacement Samara 2016 2x200 MVA 0.0 400.0 0.0 of AT 220/110 kV 2x125 with 2x200 MVA)

SS 220 kV Kinelskaya (reconstruction with increasing capacity, replacement 38 Samara 2019 2x200 MVA 0.0 400.0 0.0 of AT 220/110 kV 2x180 with 2x200 MVA)

SS 220 kV Vasilievskaya (reconstruction with increasing capacity, replacement 39 of AT 220/110 kV 2x200 with 2x250 Samara 2015 2x250 MVA 0.0 500.0 0.0 MVA)

Facilities of renovation with increasing of transformer capacity 2,843.8 6,577.0 1,260.0

500 kV 1,387.1 3,551.0 1,260.0

220 kV 1,456.7 3,026.0 0.0

172 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

359.0 0.0 0.0 0.0 0.0

1,142.6 0.0 245.0 300.0 482.6

1,048.5 0.0 0.0 38.1 327.6

1,377.6 0.0 0.0 145.4 327.6

15,920.0 2,279.5 787.7 956.0 0.0

15,920.0 2,279.5 787.7 956.0 0.0

6,000.0 536.0 700.0 956.0 0.0

9,920.0 1,743.5 87.7 0.0 0.0

0.0 0.0 0.0 0.0 0.0

6,575.0 1,064.6 1,079.8 1,695.4 555.6

6,575.0 1,064.6 1,079.8 1,695.4 555.6

1,934.0 632.3 375.9 444.5 0.0

1,442.0 61.3 232.4 1,004.3 144.0

2,456.0 0.1 176.4 172.5 411.6

743.0 370.9 295.1 74.1 0.0

92,136.2 11,245.6 10,357.5 15,718.0 20,469.3

54,506.3 5,518.6 4,387.4 8,162.2 12,604.6

37,629.9 5,727.0 5,970.1 7,555.8 7,864.7

한국전기산업연구원 173 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) facility № Name of the project Power system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Liquidation of «T-connector» at OL 220 kV 30 Kinelskaya — Uralskaya (approach at SS Samara 2019 9.3 km Yuzhnaya)

31 The 2d OL 220 kV Penza-I — Penza-II Penza 2019 50 km

Further construction of double-circuit OL 220 kV from Ulyanovskaya CHPP-2 and 32 its tie-in in OL 220 kV Ulyanovsk 2019 2x8.7 km Kremenki-Ulyanovskaya

SS 220 kV Raspredelitelnaya with 33 change-over to project voltage of two OL Saratov 2019 250 MVA Kurdyum — Raspredelitelnaya

Interconnection power transmission lines

500 kV

OL 500 kV Kostromskaya SDPP Kostroma, 286 km, 34 — Nizhni 2016 Nizhegorodskaya Novgorod SR-180

394.7 km OL 500 kV Gazovaya — Orenburg, 35 Krasnoarmeyskaya Samara 2014 2xSR-180

Facilities of renovation with increasing of transformer capacity

220 kV

Reconructuion of SS 220 kV Kutlu Bukash 36 (replacement of AT 220/110 kV 2x63 MVA Tatarstan 2015 2x125 MVA with 2x125 MVA)

SS 220 kV Solnechnaya (reconstruction 37 with increasing capacity, replacement of Samara 2016 2x200 MVA AT 220/110 kV 2x125 with 2x200 MVA)

SS 220 kV Kinelskaya (reconstruction with 38 increasing capacity, replacement of AT Samara 2019 2x200 MVA 220/110 kV 2x180 with 2x200 MVA)

SS 220 kV Vasilievskaya (reconstruction 39 with increasing capacity, replacement of Samara 2015 2x250 MVA AT 220/110 kV 2x200 with 2x250 MVA)

Facilities of renovation with increasing of transformer capacity

500 kV

220 kV

174 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project 2019 Total project implementation development)

mln RUB mln RUB

359.0 359.0 JSC «FGC UES»

0.0 1,142.6 JSC «FGC UES»

332.6 1,048.5 JSC «FGC UES»

554.4 1,377.6 JSC «FGC UES»

0.0 4,023.2

0.0 4,023.2

0.0 2,192.0 JSC «FGC UES» C

0.0 1,831.2 JSC «FGC UES» C

0.0 0.0

847.7 6,051.1

847.7 6,051.1

0.0 1,452.7 JSC «Grid company»

0.0 1,442.0 JSC «FGC UES»

847.7 2,416.3 JSC «FGC UES»

0.0 740.1 JSC «FGC UES»

7,452.6 76,905.6

3,141.4 40,462.3

4,311.2 36,443.3

한국전기산업연구원 175 러시아 에너지시스템 시장 현황

바. UPS of Urals

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 485.4 751.0 0.0

NPP 274.0 0.0 0.0

500 and 220 kV 274.0 0.0 0.0

Approaches of OL 500 kV Yuzhnaya — 1x84.4 km, 1 Shagol at Beloyarskaya NPP-2 Sverdlovsk 2014 1x84.5 km 168.9

14.0 Approaches of OL 500 kV Reftinskaya 2x7 km, SDPP — Kozyrevo at single-circuit towers 2 at SP (switching point) 500 kV Iset with Sverdlovsk 2014.2016 4x2x10 km, 501+167 further enlargement of SP 500 kV Iset to MVA SS 500 kV Iset

3 OL 500 kV Beloyarskaya NPP-2 — Iset Sverdlovsk 2014 80 km 80.0

OL 220 kV Approaches of one chain of OL 220 kV 4 BNPP Kamenskaya at Beloyarskaya Sverdlovsk 2014 — 9.595 km, 11.1 — OL 110 kV NPP-2 — 1.524 km

TPP 211.4 751.0 0.0

220 kV 34.1 250.0 0.0

Approaches of OL 220 kV Ashkadar — 5 Samarovka at Novo-Salavatskaya CCGT Bashkiria 2014 2x1.2 km 2.4 unit

OL 220 kV Novo-Salavatskaya CCGT unit 6 Bashkiria 2014 22.3 km 22.3 — Ashkadar (2d OL)

Novo-Salavatskaya CCGT unit (AT 220/110 7 kV) Bashkiria 2014 250 MVA 250.0

Approaches of OL 220 kV Zinkovaya — Novometallurgicheskaya and OL 220 kV 2x2.3 km, 8 Chelyabinsk 2014 9.4 Shagol — Novometallurgicheskaya at new 2x2.4 km SWYD 220 kV of Chelyabinskaya SDPP

Construction of two single-circuit OL 220 kV at segments from tie-in in OL 220 kV Zinkovaya — Novometallurgicheskaya to SS 500 kV Shagol and SS 220 kV Novometallurgicheskaya with forming of new OL 220 kV ChSDPP Shagol and 9 — Chelyabinsk 2015 11 km, 7 km OL 220 kV ChSDPP — Novometallurgicheskaya using approaches of OL 220 kV Zinkovaya — Novometallurgicheskaya with reconstruction of OL 220 kV Zinkovaya — Novometallurgicheskaya

500 and 220 kV West Siberia 177.3 501.0 0.0

Construction of the 2d chain of OL 500 10 kV Nizhnevartovskaya SDPP — Tyumen 2014 35.3 km 35.3 Belozyernaya

176 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

18.0 0.0 0.0 80.0 668.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 80.0 668.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 80.0 668.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

668.0

80.0

18.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

18.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

18.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

한국전기산업연구원 177 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 583.4 1,419.0 0.0

NPP 354.0 668.0 0.0 500 and 220 kV 354.0 668.0 0.0

Approaches of OL 500 kV Yuzhnaya — 1x84.4 km, 1 Shagol at Beloyarskaya NPP-2 Sverdlovsk 2014 1x84.5 km 168.9 0.0 0.0

Approaches of OL 500 kV Reftinskaya 14.0 668.0 0.0 SDPP Kozyrevo at single-circuit towers 2x7 km, — 4x2x10 km, 2 at SP (switching point) 500 kV Iset with Sverdlovsk 2014.2016 501+167 further enlargement of SP 500 kV Iset to 80.0 0.0 0.0 SS 500 kV Iset MVA

3 OL 500 kV Beloyarskaya NPP-2 — Iset Sverdlovsk 2014 80 km 80.0 0.0 0.0

Approaches of one chain of OL 220 kV OL 220 kV — 9.595 km, 4 BNPP — Kamenskaya at Beloyarskaya Sverdlovsk 2014 OL 110 kV 11.1 0.0 0.0 NPP-2 — 1.524 km TPP 229.4 751.0 0.0 220 kV 52.1 250.0 0.0

Approaches of OL 220 kV Ashkadar — 5 Samarovka at Novo-Salavatskaya CCGT Bashkiria 2014 2x1.2 km 2.4 0.0 0.0 unit

6 OL 220 kV Novo-Salavatskaya CCGT unit Bashkiria 2014 22.3 km 22.3 0.0 0.0 — Ashkadar (2d OL)

Novo-Salavatskaya CCGT unit (AT 7 Bashkiria 2014 250 MVA 0.0 250.0 0.0 220/110 kV)

Approaches of OL 220 kV Zinkovaya — Novometallurgicheskaya and OL 220 kV 2x2.3 km, 8 Chelyabinsk 2014 9.4 0.0 0.0 Shagol — Novometallurgicheskaya at new 2x2.4 km SWYD 220 kV of Chelyabinskaya SDPP

Construction of two single-circuit OL 220 kV at segments from tie-in in OL 220 kV Zinkovaya — Novometallurgicheskaya to SS 500 kV Shagol and SS 220 kV Novometallurgicheskaya with forming of 9 new OL 220 kV ChSDPP — Shagol and Chelyabinsk 2015 11 km, 7 km 18.0 0.0 0.0 OL 220 kV ChSDPP — Novometallurgicheskaya using approaches of OL 220 kV Zinkovaya — Novometallurgicheskaya with reconstruction of OL 220 kV Zinkovaya — Novometallurgicheskaya

500 and 220 kV West Siberia 177.3 501.0 0.0 Construction of the 2d chain of OL 500 10 kV Nizhnevartovskaya SDPP — Tyumen 2014 35.3 km 35.3 0.0 0.0 Belozyernaya

178 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

19,908.2 11,312.3 7,532.5 0.0 0.0

13,542.5 6,292.4 6,186.7 0.0 0.0 13,542.5 6,292.4 6,186.7 0.0 0.0

5,165.0 547.7 4,114.3 0.0 0.0

2,881.9 2,881.9 0.0 0.0 0.0

2,437.4 2,437.4 0.0 0.0 0.0

2,691.2 379.9 2,072.4 0.0 0.0

367.0 45.5 0.0 0.0 0.0

6,365.7 5,019.9 1,345.8 0.0 0.0 1,956.9 611.1 1,345.8 0.0 0.0

30.7 30.7 0.0 0.0 0.0

464.8 464.8 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

115.6 115.6 0.0 0.0 0.0

1,345.8 0.0 1,345.8 0.0 0.0

4,408.8 4,408.8 0.0 0.0 0.0

1,293.2 1,293.2 0.0 0.0 0.0

한국전기산업연구원 179 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 0.0

NPP 0.0 500 and 220 kV 0.0

1 Approaches of OL 500 kV Yuzhnaya — Sverdlovsk 2014 1x84.4 km, 0.0 Shagol at Beloyarskaya NPP-2 1x84.5 km

Approaches of OL 500 kV Reftinskaya 0.0 2x7 km, SDPP — Kozyrevo at single-circuit towers 4x2x10 km, 2 at SP (switching point) 500 kV Iset with Sverdlovsk 2014.2016 further enlargement of SP 500 kV Iset to 501+167 MVA 0.0 SS 500 kV Iset

3 OL 500 kV Beloyarskaya NPP-2 — Iset Sverdlovsk 2014 80 km 0.0

Approaches of one chain of OL 220 kV OL 220 kV — 9.595 km, 4 BNPP — Kamenskaya at Beloyarskaya Sverdlovsk 2014 OL 110 kV 0.0 NPP-2 — 1.524 km TPP 0.0 220 kV 0.0

Approaches of OL 220 kV Ashkadar — 5 Samarovka at Novo-Salavatskaya CCGT Bashkiria 2014 2x1.2 km 0.0 unit

OL 220 kV Novo-Salavatskaya CCGT unit 6 Bashkiria 2014 22.3 km 0.0 — Ashkadar (2d OL)

Novo-Salavatskaya CCGT unit (AT 220/110 7 kV) Bashkiria 2014 250 MVA 0.0

Approaches of OL 220 kV Zinkovaya — Novometallurgicheskaya and OL 220 kV 2x2.3 km, 8 Chelyabinsk 2014 0.0 Shagol — Novometallurgicheskaya at new 2x2.4 km SWYD 220 kV of Chelyabinskaya SDPP

Construction of two single-circuit OL 220 kV at segments from tie-in in OL 220 kV Zinkovaya — Novometallurgicheskaya to SS 500 kV Shagol and SS 220 kV Novometallurgicheskaya with forming of new OL 220 kV ChSDPP Shagol and 9 — Chelyabinsk 2015 11 km, 7 km 0.0 OL 220 kV ChSDPP — Novometallurgicheskaya using approaches of OL 220 kV Zinkovaya — Novometallurgicheskaya with reconstruction of OL 220 kV Zinkovaya — Novometallurgicheskaya

500 and 220 kV West Siberia 0.0 Construction of the 2d chain of OL 500 10 kV Nizhnevartovskaya SDPP — Tyumen 2014 35.3 km 0.0 Belozyernaya

180 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project 2019 Total project implementation development)

mln RUB mln RUB

0.0 18,844.8

0.0 12,479.1

0.0 12,479.1

0.0 4,662.0 JSC «FGC UES» P

0.0 2,881.9 JSC «FGC UES» P

0.0 2,437.4

0.0 2,452.3 JSC «FGC UES» P

0.0 45.5 JSC «FGC UES» C

0.0 6,365.7 0.0 1,956.9

LLC «Novo-Salavatskaya 0.0 30.7 C CCGT unit»

0.0 464.8 LLC «Novo-Salavatskaya CCGT unit»

0.0 0.0 LLC «Novo-Salavatskaya CCGT unit»

0.0 115.6 WGC-2

0.0 1,345.8 WGC-2

0.0 4,408.8

0.0 1,293.2 JSC «FGC UES»

한국전기산업연구원 181 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

11 SS 500 kV Belozyernaya Tyumen 2014 501 MVA 501.0

OL 220 kV Nyaganskaya SDPP — 12 Kartopya Tyumen 2014 142 km 142.0

Interconnection power transmission lines 289.4 0.0 0.0 500 kV 289.4 0.0 0.0 13 OL 500 kV Kurgan Ishim Kurgan, 2014 289.4 km 289.4 — Tyumen

Providing the opportunity of hooking up new consumers, and also implementation of technical 678.5 2,537.0 0.0 specifications 500 kV 0.0 0.0 0.0 West Siberia 0.0 0.0 0.0

SS 500 kV Svyatogor with approaches of 2x501 MVA, 14 OL 500 kV Surgutskaya SDPP-2 — Tyumen 2016 Magistralnaya 2x16 km

SS 500 kV Muravlenkovskaya AT group 15 Tyumen 2018 3x167 MVA №2 500/220 kV

SWYD 500 kV Nadym with change-over of 16 OL 500 kV Nadym — Muravlenkovskaya Tyumen 2018 2x501MVA to nominal voltage SS 500 kV Berkut with installation of one AT group 500/220 kV at the existing SP 500 kV Berkut and approaches of OL 220 501 MVA, 17 Tyumen 2017 kV Tyumenskaya CHPP-2 — 4x5 km Zavodoukovsk and Tyumenskaya CHPP-2 — Golyshmanovo 220 kV 142.5 786.0 0.0

18 SS 220 kV Nadezhda Sverdlovsk 2014 2x250 MVA 500.0 Approaches of OL 220 kV 19 Novo-Sverdlovskaya CHPP — Yuzhnaya at Sverdlovsk 2014 2x6 km 12.0 SS 220 kV Nadezhda SS 220 kV UHO with approaches of OL 2x63 MVA, 20 220 kV Kirov — Maradykovo and Vyatka Kirov 2014 2x2x20 km 80.0 126.0 — Kotelnich

21 SS 220 kV Stroganovskaya Perm 2017 2x125 MVA

OL 220 kV Severnaya Stroganovskaya 22 — Perm 2017 2x25 km 1, 2 Approaches of two chains of OL 23 Kozyryevo — Shumikha at SS 220 kV Kurgan 2014 2x2x2.3 km9.2 Schuchanskaya Construction of OL 220 kV 24 Magnitogorskaya — Kartaly with Chelyabinsk 2016 125 km enlargement of SS 500 kV Magnitogorskaya and SS 220 kV Kartaly Sverdlovsk, 25 OL 220 kV Malakhit — Mramornaya Chelyabinsk 2016 75 km

182 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2017

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

1,232.0 1,210.0 0.0 542.0 1,302.0 0.0 1,149.6 2,383.0 0.0 14.0 1,753.0 0.0 480.0 500.0 0.0

0.0 0.0 0.0 32.0 1,002.0 0.0 10.0 501.0 0.0 0.0 1,503.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 32.0 1,002.0 0.0 10.0 501.0 0.0 0.0 1,503.0 0.0 0.0 0.0 0.0

32.0 1,002.0

501.0

1,002.0

10.0 501.0

140.0 410.0 0.0 200.0 0.0 0.0 55.6 1,000.0 0.0 0.0 0.0 0.0 120.0 250.0 0.0

250.0

50.0

125.0

75.0

한국전기산업연구원 183 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) 11 SS 500 kV Belozyernaya Tyumen 2014 501 MVA 0.0 501.0 0.0

OL 220 kV Nyaganskaya SDPP — 12 Kartopya Tyumen 2014 142 km 142.0 0.0 0.0

Interconnection power transmission lines 289.4 0.0 0.0 500 kV 289.4 0.0 0.0 13 OL 500 kV Kurgan Ishim Kurgan, 2014 289.4 km 289.4 0.0 0.0 — Tyumen

Providing the opportunity of hooking up new consumers, and also implementation of technical 4,096.1 9,685.0 0.0 specifications 500 kV 42.0 3,006.0 0.0 West Siberia 42.0 3,006.0 0.0

SS 500 kV Svyatogor with approaches of 2x501 MVA, 14 OL 500 kV Surgutskaya SDPP-2 — Tyumen 2016 32.0 1,002.0 0.0 Magistralnaya 2x16 km

SS 500 kV Muravlenkovskaya AT group 15 Tyumen 2018 3x167 MVA 0.0 501.0 0.0 №2 500/220 kV

SWYD 500 kV Nadym with change-over of 16 OL 500 kV Nadym — Muravlenkovskaya Tyumen 2018 2x501MVA 0.0 1,002.0 0.0 to nominal voltage SS 500 kV Berkut with installation of one AT group 500/220 kV at the existing SP 500 kV Berkut and approaches of OL 220 501 MVA, 17 Tyumen 2017 10.0 501.0 0.0 kV Tyumenskaya CHPP-2 — 4x5 km Zavodoukovsk and Tyumenskaya CHPP-2 — Golyshmanovo 220 kV 658.1 2,446.0 0.0 18 SS 220 kV Nadezhda Sverdlovsk 2014 2x250 MVA 0.0 500.0 0.0

Approaches of OL 220 kV 19 Novo-Sverdlovskaya CHPP — Yuzhnaya at Sverdlovsk 2014 2x6 km 12.0 0.0 0.0 SS 220 kV Nadezhda SS 220 kV UHO with approaches of OL 2x63 MVA, 20 220 kV Kirov — Maradykovo and Vyatka Kirov 2014 2x2x20 km 80.0 126.0 0.0 — Kotelnich 21 SS 220 kV Stroganovskaya Perm 2017 2x125 MVA 0.0 250.0 0.0

OL 220 kV Severnaya Stroganovskaya 22 — Perm 2017 2x25 km 50.0 0.0 0.0 1, 2 Approaches of two chains of OL 23 Kozyryevo — Shumikha at SS 220 kV Kurgan 2014 2x2x2.3 km 9.2 0.0 0.0 Schuchanskaya Construction of OL 220 kV 24 Magnitogorskaya — Kartaly with Chelyabinsk 2016 125 km 125.0 0.0 0.0 enlargement of SS 500 kV Magnitogorskaya and SS 220 kV Kartaly

25 OL 220 kV Malakhit Mramornaya Sverdlovsk, 2016 75 km 75.0 0.0 0.0 — Chelyabinsk

184 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

845.8 845.8 0.0 0.0 0.0

2,269.8 2,269.8 0.0 0.0 0.0

7,906.7 535.0 0.0 0.0 0.0 7,906.7 535.0 0.0 0.0 0.0 7,906.7 535.0 0.0 0.0 0.0

143,265.9 27,821.7 26,099.1 23,339.6 36,060.7

21,193.1 573.0 250.0 3,397.0 12,211.1 21,193.1 573.0 250.0 3,397.0 12,211.1

6,097.0 573.0 250.0 327.0 4,572.0

846.8 0.0 0.0 0.0 0.0

4,958.6 0.0 0.0 0.0 1,418.4

9,290.7 0.0 0.0 3,070.0 6,220.7

30,881.7 7,791.0 4,400.5 4,689.7 5,920.3 3,243.8 1,149.0 367.4 0.0 0.0

256.0 72.9 0.0 0.0 0.0

2,489.0 2,489.0 0.0 0.0 0.0

2,412.7 0.0 0.0 0.0 2,412.7

537.9 0.0 0.0 0.0 537.9

93.4 93.4 0.0 0.0 0.0

1,971.7 500.0 1,080.0 280.8 0.0

1,722.3 0.0 0.0 1,722.3 0.0

한국전기산업연구원 185 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar)

11 SS 500 kV Belozyernaya Tyumen 2014 501 MVA 0.0

12 OL 220 kV Nyaganskaya SDPP — Tyumen 2014 142 km 0.0 Kartopya

Interconnection power transmission lines 0.0 500 kV 0.0 Kurgan, 13 OL 500 kV Kurgan — Ishim Tyumen 2014 289.4 km 0.0

Providing the opportunity of hooking up new consumers, and also implementation of technical 8,695.9 specifications 500 kV 4,387.0 West Siberia 4,387.0 SS 500 kV Svyatogor with approaches of 14 OL 500 kV Surgutskaya SDPP-2 Tyumen 2016 2x501 MVA, 0.0 — 2x16 km Magistralnaya

15 SS 500 kV Muravlenkovskaya AT group Tyumen 2018 3x167 MVA 846.8 №2 500/220 kV

SWYD 500 kV Nadym with change-over of 16 OL 500 kV Nadym — Muravlenkovskaya Tyumen 2018 2x501MVA 3,540.2 to nominal voltage

SS 500 kV Berkut with installation of one AT group 500/220 kV at the existing SP 17 500 kV Berkut and approaches of OL 220 Tyumen 2017 501 MVA, 0.0 kV Tyumenskaya CHPP-2 — 4x5 km Zavodoukovsk and Tyumenskaya CHPP-2 — Golyshmanovo

220 kV 1,287.1 18 SS 220 kV Nadezhda Sverdlovsk 2014 2x250 MVA 0.0

Approaches of OL 220 kV 19 Novo-Sverdlovskaya CHPP — Yuzhnaya at Sverdlovsk 2014 2x6 km 0.0 SS 220 kV Nadezhda

SS 220 kV UHO with approaches of OL 2x63 MVA, 20 220 kV Kirov Maradykovo and Vyatka Kirov 2014 0.0 — 2x2x20 km — Kotelnich 21 SS 220 kV Stroganovskaya Perm 2017 2x125 MVA 0.0

OL 220 kV Severnaya — Stroganovskaya 22 1, 2 Perm 2017 2x25 km 0.0 Approaches of two chains of OL 23 Kozyryevo — Shumikha at SS 220 kV Kurgan 2014 2x2x2.3 km 0.0 Schuchanskaya Construction of OL 220 kV Magnitogorskaya — Kartaly with 24 enlargement of SS 500 kV Chelyabinsk 2016 125 km 0.0 Magnitogorskaya and SS 220 kV Kartaly

25 OL 220 kV Malakhit Mramornaya Sverdlovsk, 2016 75 km 0.0 — Chelyabinsk

186 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 845.8 JSC «FGC UES» P

0.0 2,269.8 JSC «FGC UES» P

0.0 535.0 0.0 535.0

0.0 535.0 JSC «FGC UES» C

8,437.2 130,454.2

0.0 20,818.1 0.0 20,818.1

0.0 5,722.0 JSC «FGC UES» C

0.0 846.8 JSC «FGC UES» P

0.0 4,958.6 JSC «FGC UES» P

0.0 9,290.7 JSC «FGC UES»

3,633.2 27,721.8 0.0 1,516.4 JSC «FGC UES» C

0.0 72.9 JSC «FGC UES» P

0.0 2,489.0 Investor

0.0 2,412.7 Investor (JSC «Uralkaly»)

0.0 537.9 Investor (JSC «Uralkaly»)

0.0 93.4 JSC «FGC UES»

0.0 1,860.8 CJSC «Mikheevsky GOK» P

0.0 1,722.3 JSC «FGC UES»

한국전기산업연구원 187 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

26 SS 220 kV Kamakaly Perm 2015 2x125 MVA

Approaches of OL 220 kV Yayvinskaya 27 SDPP — Severnaya at SS 220 kV Perm 2015 2x20 km Kamakaliy SS 220 kV Yak-Bodiya with approaches of OL 220 kV Udmurtskaya Balezino and 2x125 MVA, 28 — Udmurtia 2017 Izhevsk — Balezino at SS 220 kV 2x2x0.4 km Yak-Bodiya SS 220 kV Kyshtym with installation of AT 29 Chelyabinsk 2019 2x125 MVA 220/110 kV

30 OL 220 kV Mramornaya — Kyshtym Chelyabinsk 2019 45 km

31 OL 220 kV Shagol — Kyshtym Chelyabinsk 2019 75 km

SS 220 kV Titanovaya dolina with 2x250 MVA, approaches of OL 220 kV Tagil-Salda, 32 Sverdlovsk 2017 2x1 km, 2x1 approach of one of chains Salda — km Pervomayskaya

SS 220/110 kV Tominsky GOK with approaches of OL 220 kV YuUSDPP-2 2x80 MVA, 33 — Chelyabinsk 2014 Shagol-2 and YuUSDPP-2 — Shagol-3 2x2x10 km with a branch at SS 220 kV Isakovo

ReplacementofcableASU-300ofOL220kVOku 34 nevo—ReftinskayaSDPP1,2(1.3km)withcable Sverdlovsk 2014 1,3 km AS-400

SS 220 kV Uraltrubprom with OL 220 kV 2x80 MVA, 35 Sverdlovsk 2015 Emelino — Uraltrubprom 1, 2 2x50 km

220 kV West Siberia

36 SS Muravlenkovskaya AT №4 220/110 kV Tyumen 2014 125 MVA

37 SS 220/110 kV Russkaya Tyumen 2014 2x125 MVA

Double-circuit OL 220 kV Trachukovskaya 38 Tyumen 2014 2x140 km — Russkaya

SS 220 kV Arsenal with OL 220 kV 2x125 MVA, 39 Tyumen 2014 Arsenal — Tarko-Sale 2x90 km

SS 220 kV Salekhard with OL 220 kV 2x125 MVA, 40 Tyumen 2015 Nadym — Salekhard 2x336 km

188 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

250.0

40.0

1.6 250.0

250.0

45.0

75.0

4.0 500.0

100.0 160.0

1,092.0 800.0 0.0 310.0 300.0 0.0 1,084.0 882.0 0.0 14.0 250.0 0.0 360.0 250.0 0.0

672.0 250.0

한국전기산업연구원 189 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar)

26 SS 220 kV Kamakaly Perm 2015 2x125 MVA 0.0 250.0 0.0

Approaches of OL 220 kV Yayvinskaya 27 SDPP — Severnaya at SS 220 kV Perm 2015 2x20 km 40.0 0.0 0.0 Kamakaliy SS 220 kV Yak-Bodiya with approaches of OL 220 kV Udmurtskaya Balezino 2x125 MVA, 28 — Udmurtia 2017 1.6 250.0 0.0 and Izhevsk — Balezino at SS 220 kV 2x2x0.4 km Yak-Bodiya SS 220 kV Kyshtym with installation of 29 Chelyabinsk 2019 2x125 MVA 0.0 250.0 0.0 AT 220/110 kV

30 OL 220 kV Mramornaya — Kyshtym Chelyabinsk 2019 45 km 45.0 0.0 0.0

31 OL 220 kV Shagol — Kyshtym Chelyabinsk 2019 75 km 75.0 0.0 0.0

SS 220 kV Titanovaya dolina with 2x250 MVA, approaches of OL 220 kV Tagil-Salda, 32 Sverdlovsk 2017 2x1 km, 2x1 4.0 500.0 0.0 approach of one of chains Salda — km Pervomayskaya SS 220/110 kV Tominsky GOK with approaches of OL 220 kV YuUSDPP-2 2x80 MVA, 33 Shagol-2 and YuUSDPP-2 Chelyabinsk 2014 40.0 160.0 0.0 — — 2x2x10 km Shagol-3 with a branch at SS 220 kV Isakovo ReplacementofcableASU-300ofOL220kVOk 34 unevo—ReftinskayaSDPP1,2(1.3km)withca Sverdlovsk 2014 1,3 km 1.3 0.0 0.0 bleAS-400 SS 220 kV Uraltrubprom with OL 220 kV 2x80 MVA, 35 Sverdlovsk 2015 100.0 160.0 0.0 Emelino — Uraltrubprom 1, 2 2x50 km

220 kV West Siberia 3,396.0 4,233.0 0.0

36 SS Muravlenkovskaya AT №4 220/110 kV Tyumen 2014 125 MVA 0.0 125.0 0.0

37 SS 220/110 kV Russkaya Tyumen 2014 2x125 MVA 0.0 250.0 0.0

Double-circuit OL 220 kV 38 Tyumen 2014 2x140 km 280.0 0.0 0.0 Trachukovskaya — Russkaya

SS 220 kV Arsenal with OL 220 kV 2x125 MVA, 39 Tyumen 2014 180.0 250.0 0.0 Arsenal — Tarko-Sale 2x90 km

SS 220 kV Salekhard with OL 220 kV 2x125 MVA, 40 Tyumen 2015 672.0 250.0 0.0 Nadym — Salekhard 2x336 km

190 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 201 2015 2019 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

2,062.2 947.4 1,114.8 0.0 0.0

468.9 0.0 468.9 0.0 0.0

2,883.1 0.0 0.0 1,381.7 1,501.4

2,647.0 0.0 0.0 0.0 0.0

912.3 0.0 0.0 0.0 0.0

1,361.0 0.0 0.0 0.0 0.0

2,773.2 0.0 0.0 1,304.9 1,468.3

2,581.3 1,442.8 0.0 0.0 0.0

13.7 13.7 0.0 0.0 0.0

2,452.2 1,082.8 1,369.4 0.0 0.0

91,191.1 19,457.7 21,448.6 15,252.9 17,929.3

270.0 46.0 0.0 0.0 0.0

1,282.5 1,100.0 0.0 0.0 0.0

4,526.4 869.4 3,394.8 0.0 0.0

4,500.0 2,500.0 480.3 0.0 0.0

12,953.3 3,789.7 5,621.8 0.0 0.0

한국전기산업연구원 191 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar)

26 SS 220 kV Kamakaly Perm 2015 2x125 MVA 0.0

Approaches of OL 220 kV Yayvinskaya 27 SDPP — Severnaya at SS 220 kV Perm 2015 2x20 km 0.0 Kamakaliy SS 220 kV Yak-Bodiya with approaches of OL 220 kV Udmurtskaya Balezino and 2x125 MVA, 28 — Udmurtia 2017 0.0 Izhevsk — Balezino at SS 220 kV 2x2x0.4 km Yak-Bodiya

SS 220 kV Kyshtym with installation of AT 29 Chelyabinsk 2019 2x125 MVA 1,287.1 220/110 kV

30 OL 220 kV Mramornaya — Kyshtym Chelyabinsk 2019 45 km 0.0

31 OL 220 kV Shagol — Kyshtym Chelyabinsk 2019 75 km 0.0

SS 220 kV Titanovaya dolina with 2x250 MVA, approaches of OL 220 kV Tagil-Salda, 32 Sverdlovsk 2017 2x1 km, 2x1 0.0 approach of one of chains Salda — km Pervomayskaya

SS 220/110 kV Tominsky GOK with approaches of OL 220 kV YuUSDPP-2 2x80 MVA, 33 — Chelyabinsk 2014 0.0 Shagol-2 and YuUSDPP-2 — Shagol-3 2x2x10 km with a branch at SS 220 kV Isakovo

ReplacementofcableASU-300ofOL220kVOku 34 nevo—ReftinskayaSDPP1,2(1.3km)withcable Sverdlovsk 2014 1,3 km 0.0 AS-400

SS 220 kV Uraltrubprom with OL 220 kV 2x80 MVA, 35 Sverdlovsk 2015 0.0 Emelino — Uraltrubprom 1, 2 2x50 km

220 kV West Siberia 3,021.8

36 SS Muravlenkovskaya AT №4 220/110 kV Tyumen 2014 125 MVA 0.0

37 SS 220/110 kV Russkaya Tyumen 2014 2x125 MVA 0.0

Double-circuit OL 220 kV Trachukovskaya 38 Tyumen 2014 2x140 km 0.0 — Russkaya

SS 220 kV Arsenal with OL 220 kV 2x125 MVA, 39 Tyumen 2014 0.0 Arsenal — Tarko-Sale 2x90 km

SS 220 kV Salekhard with OL 220 kV 2x125 MVA, 40 Tyumen 2015 0.0 Nadym — Salekhard 2x336 km

192 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 2,062.2 Investor

0.0 468.9 Investor

0.0 2,883.1 JSC «FGC UES»

1,359.9 2,647.0 JSC «FGC UES»

912.3 912.3 JSC «FGC UES»

1,361.0 1,361.0 JSC «FGC UES»

0.0 2,773.2 JSC «FGC UES»

JSC «Russian copper 0.0 1,442.8 company»

0.0 13.7 JSC «FGC UES»

0.0 2,452.2 Investor

4,804.0 81,914.3

0.0 46.0 JSC «FGC UES» P

0.0 1,100.0 JSC «FGC UES» P

0.0 4,264.2 JSC «FGC UES» P

0.0 2,980.3 JSC «FGC UES» C

0.0 9,411.5 Tyumenenergo C

한국전기산업연구원 193 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Construction of SS 220 kV Vektor with approaches of OL 220 kV Pyt-Yah — 2x125 MVA, 41 Ust-Balyk (SS 220/110 kV Tyumen 2014 2x5 km 10.0 250.0 Nefteyuganskaya with approaches of OL 220 kV Pyt-Yah — Leninskaya) SS 220 kV Iskonnaya with approach of 42 one chain of OL 220 kV Urengoyskaya Tyumen 2014 2x125 MVA, 6.0 250.0 2x1x3 km SDPP — Urengoy Construction of SS 220 kV Dunaevskaya 2x125 MVA, 43 with approaches of OL 220 kV Tyumen 2015 2x5 km Surgutskaya SDPP-1 — Imilor

44 SS 220 kV Tura with approaches of OL Tyumen 2014 2x125 MVA, 44.0 250.0 220 kV 2x22 km

SS 220 kV Ermak with approach of one 2x25 MVA, 45 chain of OL 220 kV Urengoyskaya SDPP Tyumen 2015 2x75 km — Mangazeya

46 OL 220 kV Iskonnaya — Ermak Tyumen 2015 1x120 km

SS 220/110 kV Yamskaya with 47 double-circuit OL 220 kV Trachukovskaya Tyumen 2015 1x125 MVA, 2x70 km — Yamskaya SS 220 kV Istok with double-circuit OL 2x125 MVA, 48 Tyumen 2014 10.0 250.0 220 kV Surgutskaya SDPP-1 — Istok 2x5 km Construction of SS 220 kV 2x125 MVA, 49 Novobystrinskaya with approaches of OL Tyumen 2016 2x5 km 220 kV Somkinskaya — Peresvet

SS 220 kV Gubernskaya with branch lines 2x63 MVA, 50 of OL 220 kV Tyumenskaya CHPP-2 — Tyumen 2014 6.0 126.0 Tyumen 2x3 km

SS 220 kV Slavyanskaya with OL 220 kV 2x25 MVA, 51 Tyumen 2016 Ermak — Slavyanskaya №1, 2 2x150 km SS 220 kV Vladimirskaya with OL 220 kV 2x125 MVA, 52 Tyumen 2017 Ilkovo — Vladimirskaya 2x120 km SS 220 kV Nevskaya with approach of 53 one chain of OL 220 kV Variegan Tyumen 2017 2x125 MVA, — 2x7 km Machtovaya

SS 220 kV Andreevskaya with OL 220 kV 2x25 MVA, 54 Tyumen 2017 Yanga-Yakha — Andreevskaya №1, 2 2x100 km SS 220 kV Starorusskaya with 2x125 MVA, 55 double-circuit OL 220 kV Ilkovo — Tyumen 2019 2x180 km Starorusskaya

56 SS 220 kV Galitskaya with approaches of Tyumen 2018 2x125 MVA, OL 220 kV Pyt-Yakh — Ust-Balyk 2x7 km

Construction of SS 220 kV Ust-Tegusskaya 2x63 MVA, with double-circuit OL 220 kV 57 Demyanskaya Ust-Tegusskaya with Tyumen 2017 2x40 MVA, — 2x63 MVA, hooking up new SS 220 kV Tyamkinskaya 2x315 km and SS 220 kV Protozanovskaya

194 Russian Energy Systems Market Research 부록 1

Physical quanvtities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

10.0 250.0

150.0 50.0

120.0

140.0 250.0

10.0 250.0

300.0 50.0

240.0 250.0

14.0 250.0

200.0 50.0

360.0 250.0

14.0 250.0

630.0 332.0

한국전기산업연구원 195 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Construction of SS 220 kV Vektor with approaches of OL 220 kV Pyt-Yah — 2x125 MVA, 41 Ust-Balyk (SS 220/110 kV Tyumen 2014 2x5 km 10.0 250.0 0.0 Nefteyuganskaya with approaches of OL 220 kV Pyt-Yah — Leninskaya) SS 220 kV Iskonnaya with approach of 42 one chain of OL 220 kV Urengoyskaya Tyumen 2014 2x125 MVA, 6.0 250.0 0.0 2x1x3 km SDPP — Urengoy Construction of SS 220 kV Dunaevskaya 2x125 MVA, 43 with approaches of OL 220 kV Tyumen 2015 2x5 km 10.0 250.0 0.0 Surgutskaya SDPP-1 — Imilor

44 SS 220 kV Tura with approaches of OL Tyumen 2014 2x125 MVA, 44.0 250.0 0.0 220 kV 2x22 km

SS 220 kV Ermak with approach of one 2x25 MVA, 45 chain of OL 220 kV Urengoyskaya SDPP Tyumen 2015 150.0 50.0 0.0 2x75 km — Mangazeya

46 OL 220 kV Iskonnaya — Ermak Tyumen 2015 1x120 km 120.0 0.0 0.0

SS 220/110 kV Yamskaya with 47 double-circuit OL 220 kV Trachukovskaya Tyumen 2015 1x125 MVA, 140.0 250.0 0.0 2x70 km — Yamskaya SS 220 kV Istok with double-circuit OL 2x125 MVA, 48 Tyumen 2014 10.0 250.0 0.0 220 kV Surgutskaya SDPP-1 — Istok 2x5 km Construction of SS 220 kV 2x125 MVA, 49 Novobystrinskaya with approaches of OL Tyumen 2016 2x5 km 10.0 250.0 0.0 220 kV Somkinskaya — Peresvet

SS 220 kV Gubernskaya with branch lines 2x63 MVA, 50 of OL 220 kV Tyumenskaya CHPP-2 — Tyumen 2014 6.0 126.0 0.0 Tyumen 2x3 km

SS 220 kV Slavyanskaya with OL 220 kV 2x25 MVA, 51 Tyumen 2016 300.0 50.0 0.0 Ermak — Slavyanskaya №1, 2 2x150 km SS 220 kV Vladimirskaya with OL 220 kV 2x125 MVA, 52 Tyumen 2017 240.0 250.0 0.0 Ilkovo — Vladimirskaya 2x120 km SS 220 kV Nevskaya with approach of 53 one chain of OL 220 kV Variegan Tyumen 2017 2x125 MVA, 14.0 250.0 0.0 — 2x7 km Machtovaya

SS 220 kV Andreevskaya with OL 220 kV 2x25 MVA, 54 Tyumen 2017 200.0 50.0 0.0 Yanga-Yakha — Andreevskaya №1, 2 2x100 km SS 220 kV Starorusskaya with 2x125 MVA, 55 double-circuit OL 220 kV Ilkovo — Tyumen 2019 2x180 km 360.0 250.0 0.0 Starorusskaya

56 SS 220 kV Galitskaya with approaches of Tyumen 2018 2x125 MVA, 14.0 250.0 0.0 OL 220 kV Pyt-Yakh — Ust-Balyk 2x7 km

Construction of SS 220 kV Ust-Tegusskaya 2x63 MVA, with double-circuit OL 220 kV 57 Demyanskaya Ust-Tegusskaya with Tyumen 2017 2x40 MVA, 630.0 332.0 0.0 — 2x63 MVA, hooking up new SS 220 kV Tyamkinskaya 2x315 km and SS 220 kV Protozanovskaya

196 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

2,288.0 2,288.0 0.0 0.0 0.0

2,358.6 1,283.4 0.0 0.0 0.0

2,362.4 1,143.7 1,218.7 0.0 0.0

2,751.2 1,243.0 0.0 0.0 0.0

4,912.5 500.0 590.5 3,684.5 0.0

1,892.2 250.0 138.0 1,419.2 0.0

4,197.9 1,082.8 3,115.1 0.0 0.0

2,265.6 2,265.6 0.0 0.0 0.0

2,516.0 0.0 1,218.5 1,297.5 0.0

1,576.8 881.1 0.0 0.0 0.0

5,888.4 175.0 545.0 950.0 4,173.4

4,179.4 40.0 800.0 1,300.0 2,039.4

2,178.5 0.0 0.0 1,228.1 950.4

5,089.7 0.0 0.0 767.6 4,322.1

6,196.8 0.0 0.0 0.0 0.0

2,939.0 0.0 0.0 0.0 1,310.0

14,065.9 0.0 4,325.9 4,606.0 5,134.0

한국전기산업연구원 197 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Construction of SS 220 kV Vektor with approaches of OL 220 kV Pyt-Yah — 41 Ust-Balyk (SS 220/110 kV Nefteyuganskaya Tyumen 2014 2x125 MVA, 0.0 2x5 km with approaches of OL 220 kV Pyt-Yah — Leninskaya)

SS 220 kV Iskonnaya with approach of 42 one chain of OL 220 kV Urengoyskaya Tyumen 2014 2x125 MVA, 0.0 2x1x3 km SDPP — Urengoy Construction of SS 220 kV Dunaevskaya 43 with approaches of OL 220 kV Tyumen 2015 2x125 MVA, 0.0 2x5 km Surgutskaya SDPP-1 — Imilor SS 220 kV Tura with approaches of OL 2x125 MVA, 44 Tyumen 2014 0.0 220 kV 2x22 km

SS 220 kV Ermak with approach of one 45 chain of OL 220 kV Urengoyskaya SDPP Tyumen 2015 2x25 MVA, 0.0 2x75 km — Mangazeya

46 OL 220 kV Iskonnaya — Ermak Tyumen 2015 1x120 km 0.0

SS 220/110 kV Yamskaya with 1x125 MVA, 47 double-circuit OL 220 kV Trachukovskaya Tyumen 2015 2x70 km 0.0 — Yamskaya SS 220 kV Istok with double-circuit OL 220 2x125 MVA, 48 Tyumen 2014 0.0 kV Surgutskaya SDPP-1 — Istok 2x5 km

Construction of SS 220 kV 2x125 MVA, 49 Novobystrinskaya with approaches of OL Tyumen 2016 0.0 2x5 km 220 kV Somkinskaya — Peresvet SS 220 kV Gubernskaya with branch lines 50 of OL 220 kV Tyumenskaya CHPP-2 Tyumen 2014 2x63 MVA, 0.0 — 2x3 km Tyumen

51 SS 220 kV Slavyanskaya with OL 220 kV Tyumen 2016 2x25 MVA, 0.0 Ermak — Slavyanskaya №1, 2 2x150 km

52 SS 220 kV Vladimirskaya with OL 220 kV Tyumen 2017 2x125 MVA, 0.0 Ilkovo — Vladimirskaya 2x120 km SS 220 kV Nevskaya with approach of one 2x125 MVA, 53 chain of OL 220 kV Variegan — Tyumen 2017 2x7 km 0.0 Machtovaya

SS 220 kV Andreevskaya with OL 220 kV 2x25 MVA, 54 Tyumen 2017 0.0 Yanga-Yakha — Andreevskaya №1, 2 2x100 km

SS 220 kV Starorusskaya with 2x125 MVA, 55 double-circuit OL 220 kV Ilkovo — Tyumen 2019 1,392.8 Starorusskaya 2x180 km

SS 220 kV Galitskaya with approaches of 2x125 MVA, 56 Tyumen 2018 1,629.0 OL 220 kV Pyt-Yakh — Ust-Balyk 2x7 km

Construction of SS 220 kV Ust-Tegusskaya 2x63 MVA, with double-circuit OL 220 kV 2x40 MVA, 57 Demyanskaya —Ust-Tegusskaya with Tyumen 2017 0.0 hooking up new SS 220 kV Tyamkinskaya 2x63 MVA, 2x315 km and SS 220 kV Protozanovskaya

198 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 2,288.0 JSC «FGC UES» P

0.0 1,283.4 JSC «FGC UES» P

0.0 2,362.4 JSC «FGC UES» P

0.0 1,243.0 JSC «FGC UES» P

0.0 4,775.0 JSC «FGC UES» P

0.0 1,807.2 JSC «FGC UES» P

0.0 4,197.9 JSC «FGC UES» P

0.0 2,265.6 JSC «FGC UES» P

0.0 2,516.0 JSC «FGC UES» P

0.0 881.1 JSC «FGC UES» P

0.0 5,843.4 JSC «FGC UES» P

0.0 4,179.4 JSC «FGC UES» P

0.0 2,178.5 JSC «FGC UES» P

0.0 5,089.7 JSC «FGC UES» P

4,804.0 6,196.8 JSC «FGC UES» P

0.0 2,939.0 JSC «FGC UES»

0.0 14,065.9 LLC «TNK-Uvat»

한국전기산업연구원 199 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 160.0 1,552.0 0.0 power supply to existing consumers 500 kV 0.0 1,302.0 0.0 OL 500 kV Troitskaya SDPP 248.3 km, 58 — Chelyabinsk 2018 Privalovskaya 3x60 Mvar

SWYD 500 kV Permskaya SDPP AT group 59 №2 500/220 kV with sectionalization of Perm 2014 801 MVA 801.0 SWYD 220 kV

60 SS 500 kV Gazovaya (2d AT group) Orenburg 2014 501 MVA 501.0

500 kV — 501 MVA, SS 500 kV Preobrazhenskaya with 2x6 km 61 approaches of OL 500 kV Gazovaya — Orenburg 2016 Krasnoarmeyskaya, with approaches of OL 220 kV Buzuluk Sorochinskaya 220 kV — — 2x10 km

500 kV West Siberia 0.0 0.0 0.0 Change-over to nominal voltage 500 kV of 62 Tyumen 2014 OL 220 kV Irtysh — Zarya

63 Installation of SCD (series compensation Tyumen 2018 1050 Mvar device) 500 kV Ishim (Zarya)

220 kV 160.0 250.0 0.0

64 VerkhnetagilskayaSDPPAT220/110kV Sverdlovsk 2014 250 MVA 250.0

65 OL 220 kV Buzulukskaya — Orenburg, 2014 160 km 160.0 Krasnoarmeyskaya Samara

SS 220 kV Buzulukskaya (replacement of 66 existing AT 2x125 MVA with 2x200 MVA) Orenburg 2015 2x200 MVA

67 OL 220 kV Preobrazhenskaya — Orenburg 2016 130 km Mikhaylovskaya

68 SS 220 kV Lebyazhie (AT №2) Kirov 2018 125 MVA Kirov, 69 OL 220 kV Lebyazhie — Dubniki Mari El 2018 70 km SS 220 kV Sorochinskaya (replacement of AT 2x125 MVA with 2x200 MVA with 2x200 MVA, v70 Orenburg 2016 installation of SCB (static capacitor bank) 62 Mvar 62 Mvar) Construction of double-circuit OL 220 kV BNPP-2 — Kalininskaya (2x55 km), hooking up by approach of OL 220 kV 71 Kalininskay VtSDPP and approach of Sverdlovsk 2019 2x55 km, — 2x10 km one chain of OL 220 kV BNPP-2 — Kalininskaya at SS 220 kV Nadezhda (2x10 km)

200 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 400.0 0.0 162.0 901.0 62.0 0.0 0.0 0.0 318.3 125.0 1,230.0 130.0 0.0 0.0

0.0 0.0 0.0 32.0 501.0 0.0 0.0 0.0 0.0 248.3 0.0 180.0 0.0 0.0 0.0

248.3 180.0

12.0 501.0

20.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 1,050.0 0.0 0.0 0.0

1,050.0

0.0 400.0 0.0 130.0 400.0 62.0 0.0 0.0 0.0 70.0 125.0 0.0 130.0 0.0 0.0

400.0

130.0

125.0

70.0

400.0 62.0

130.0

한국전기산업연구원 201 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 770.3 2,978.0 1,292.0 power supply to existing consumers 500 kV 280.3 1,803.0 180.0 OL 500 kV Troitskaya SDPP 248.3 km, 58 — Chelyabinsk 2018 248.3 0.0 180.0 Privalovskaya 3x60 Mvar

SWYD 500 kV Permskaya SDPP AT 59 group №2 500/220 kV with Perm 2014 801 MVA 0.0 801.0 0.0 sectionalization of SWYD 220 kV

60 SS 500 kV Gazovaya (2d AT group) Orenburg 2014 501 MVA 0.0 501.0 0.0

500 kV — 501 MVA, 12.0 501.0 0.0 SS 500 kV Preobrazhenskaya with 2x6 km 61 approaches of OL 500 kV Gazovaya — Orenburg 2016 Krasnoarmeyskaya, with approaches of OL 220 kV Buzuluk Sorochinskaya — 220 kV — 2x10 km 20.0 0.0 0.0

500 kV West Siberia 0.0 0.0 1,050.0 Change-over to nominal voltage 500 kV 62 Tyumen 2014 0.0 0.0 0.0 of OL 220 kV Irtysh — Zarya

63 Installation of SCD (series compensation Tyumen 2018 1050 Mvar 0.0 0.0 1,050.0 device) 500 kV Ishim (Zarya)

220 kV 490.0 1,175.0 62.0

64 VerkhnetagilskayaSDPPAT220/110kV Sverdlovsk 2014 250 MVA 0.0 250.0 0.0

65 OL 220 kV Buzulukskaya — Orenburg, 2014 160 km 160.0 0.0 0.0 Krasnoarmeyskaya Samara

SS 220 kV Buzulukskaya (replacement 66 of existing AT 2x125 MVA with 2x200 Orenburg 2015 2x200 MVA 0.0 400.0 0.0 MVA)

OL 220 kV Preobrazhenskaya — 67 Mikhaylovskaya Orenburg 2016 130 km 130.0 0.0 0.0

68 SS 220 kV Lebyazhie (AT №2) Kirov 2018 125 MVA 0.0 125.0 0.0 Kirov, 69 OL 220 kV Lebyazhie Dubniki 2018 70 km 70.0 0.0 0.0 — Mari El SS 220 kV Sorochinskaya (replacement v70 of AT 2x125 MVA with 2x200 MVA with Orenburg 2016 2x200 MVA, 0.0 400.0 62.0 installation of SCB (static capacitor 62 Mvar bank) 62 Mvar) Construction of double-circuit OL 220 kV BNPP-2 — Kalininskaya (2x55 km), hooking up by approach of OL 220 kV 2x55 km, 71 Kalininskay — VtSDPP and approach of Sverdlovsk 2019 2x10 km 130.0 0.0 0.0 one chain of OL 220 kV BNPP-2 — Kalininskaya at SS 220 kV Nadezhda (2x10 km)

202 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

32,234.0 7,547.9 3,681.3 3,427.1 3,591.0

16,962.7 3,351.7 2,662.8 1,778.2 3,276.0

10,705.0 0.0 0.0 1,535.0 3,276.0

1,229.5 1,229.5 0.0 0.0 0.0

622.2 622.2 0.0 0.0 0.0

4,162.8 1,500.0 2,662.8 0.0 0.0

243.2 0.0 0.0 243.2 0.0

4,279.8 1,154.1 0.0 0.0 0.0

1,154.1 1,154.1 0.0 0.0 0.0

3,125.7 0.0 0.0 0.0 0.0

10,991.5 3,042.1 1,018.5 1,648.9 315.0

458.6 458.6 0.0 0.0 0.0

2,417.0 2,417.0 0.0 0.0 0.0

665.4 166.5 406.0 67.2 0.0

1,745.6 0.0 612.5 818.1 315.0

937.0 0.0 0.0 0.0 0.0

1,496.5 0.0 0.0 0.0 0.0

763.6 0.0 0.0 763.6 0.0

2,507.8 0.0 0.0 0.0 0.0

한국전기산업연구원 203 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric power 11,453.2 supply to existing consumers 500 kV 5,894.0

58 OL 500 kV Troitskaya SDPP — Chelyabinsk 2018 248.3 km, 5,894.0 Privalovskaya 3x60 Mvar

SWYD 500 kV Permskaya SDPP AT group 59 №2 500/220 kV with sectionalization of Perm 2014 801 MVA 0.0 SWYD 220 kV

60 SS 500 kV Gazovaya (2d AT group) Orenburg 2014 501 MVA 0.0

500 kV — 501 MVA, 0.0 SS 500 kV Preobrazhenskaya with 2x6 km approaches of OL 500 kV Gazovaya 61 — Orenburg 2016 Krasnoarmeyskaya, with approaches of OL 220 kV Buzuluk Sorochinskaya — 220 kV — 0.0 2x10 km

500 kV West Siberia 3,125.7 Change-over to nominal voltage 500 kV of 62 Tyumen 2014 0.0 OL 220 kV Irtysh — Zarya

63 Installation of SCD (series compensation Tyumen 2018 1050 Mvar 3,125.7 device) 500 kV Ishim (Zarya)

220 kV 2,433.5

64 VerkhnetagilskayaSDPPAT220/110kV Sverdlovsk 2014 250 MVA 0.0

65 OL 220 kV Buzulukskaya — Orenburg, 2014 160 km 0.0 Krasnoarmeyskaya Samara

SS 220 kV Buzulukskaya (replacement of 66 existing AT 2x125 MVA with 2x200 MVA) Orenburg 2015 2x200 MVA 0.0

67 OL 220 kV Preobrazhenskaya — Orenburg 2016 130 km 0.0 Mikhaylovskaya

68 SS 220 kV Lebyazhie (AT №2) Kirov 2018 125 MVA 937.0 Kirov, 69 OL 220 kV Lebyazhie — Dubniki Mari El 2018 70 km 1,496.5 SS 220 kV Sorochinskaya (replacement of AT 2x125 MVA with 2x200 MVA with 2x200 MVA, v70 installation of SCB (static capacitor bank) Orenburg 2016 62 Mvar 0.0 62 Mvar) Construction of double-circuit OL 220 kV BNPP-2 — Kalininskaya (2x55 km), hooking up by approach of OL 220 kV 71 Kalininskay VtSDPP and approach of Sverdlovsk 2019 2x55 km, 0.0 — 2x10 km one chain of OL 220 kV BNPP-2 — Kalininskaya at SS 220 kV Nadezhda (2x10 km)

204 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

2,507.8 32,208.3

0.0 16,962.7

0.0 10,705.0 JSC «FGC UES» P

0.0 1,229.5 WGC-1

0.0 622.2 JSC «FGC UES» P

0.0 4,162.8 JSC «FGC UES»

0.0 243.2

0.0 4,279.8

0.0 1,154.1 Investor

0.0 3,125.7 JSC «FGC UES»

2,507.8 10,965.8

0.0 458.6 WGC-1

0.0 2,417.0 JSC «FGC UES»

0.0 639.7 JSC «FGC UES» P

0.0 1,745.6 JSC «FGC UES» P

0.0 937.0 JSC «FGC UES» P

0.0 1,496.5 JSC «FGC UES»

0.0 763.6 JSC «FGC UES»

2,507.8 2,507.8 JSC «FGC UES»

한국전기산업연구원 205 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

Facilities for power generation 0.0 0.0 0.0

500kV 0.0 0.0 0.0

2x250 + 72 SS 500 kV Shagol Chelyabinsk 2015 7x167 MVA

SS 500 kV Magnitogorskaya 73 (installation of CSR 500 kV) Chelyabinsk 2015 180 Mvar

500 kV West Siberia 0.0 0.0 0.0

6x167 MVA, 2x200 MVA, 74 SS 220 kV Demiyanskaya Tyumen 2017 2x25 MVA, 2x63 MVA

220 kV 0.0 0.0 0.0

75 SS 220 kV Kamenskaya Sverdlovsk 2015.2016 2x250 MVA

Facilities for power generation 1,613.3 4,840.0 0.0

500kV 587.6 1,803.0 0.0

220 kV 1,025.7 3,037.0 0.0

206 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 1,919.0 180.0 0.0 250.0 0.0 0.0 1,578.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 1,669.0 180.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

1,669.0

180.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 1,578.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

1,578.0

0.0 250.0 0.0 0.0 250.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

250.0 250.0

1,250.0 3,529.0 180.0 784.0 3,121.0 62.0 1,149.6 3,961.0 0.0 332.3 1,878.0 1,230.0 610.0 500.0 0.0

0.0 1,669.0 180.0 124.0 2,171.0 0.0 10.0 2,079.0 0.0 248.3 1,503.0 1,230.0 0.0 0.0 0.0

1,250.0 1,860.0 0.0 660.0 950.0 62.0 1,139.6 1,882.0 0.0 84.0 375.0 0.0 610.0 500.0 0.0

한국전기산업연구원 207 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar)

Facilities for power generation 0.0 3,747.0 180.0

500kV 0.0 1,669.0 180.0

2x250 + 72 SS 500 kV Shagol Chelyabinsk 2015 7x167 MVA 0.0 1,669.0 0.0

SS 500 kV Magnitogorskaya 73 (installation of CSR 500 kV) Chelyabinsk 2015 180 Mvar 0.0 0.0 180.0

500 kV West Siberia 0.0 1,578.0 0.0

6x167 MVA, 2x200 MVA, 74 SS 220 kV Demiyanskaya Tyumen 2017 0.0 1,578.0 0.0 2x25 MVA, 2x63 MVA

220 kV 0.0 500.0 0.0

75 SS 220 kV Kamenskaya Sverdlovsk 2015.2016 2x250 MVA 0.0 500.0 0.0

0.0

Facilities for power generation 5,739.2 17,829.0 1,472.0

500kV 969.9 9,225.0 1,410.0

220 kV 4,769.3 8,604.0 62.0

208 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

13,023.4 1,153.8 1,325.2 704.9 500.0

3,106.2 406.5 773.7 0.0 0.0

2,669.1 253.6 616.5 0.0 0.0

437.1 152.9 157.2 0.0 0.0

7,453.4 511.4 255.2 584.9 500.0

7,453.4 511.4 255.2 584.9 500.0

2,463.8 235.9 296.3 120.0 0.0

2,463.8 235.9 296.3 120.0 0.0

216,338.2 48,370.7 38,638.1 27,471.6 40,151.7

75,973.2 14,917.6 10,128.4 5,516.9 15,987.1

140,365.0 33,453.1 28,509.7 21,954.7 24,164.6

한국전기산업연구원 209 러시아 에너지시스템 시장 현황

Capital investments Capital investments (money of the (money of the day, Year of the day, including including VAT) facility № Name of the project Power system VAT) commission- Total cost of ing 2018 construction

mln RUB mln RUB

Facilities for power generation 0.0

500kV 3,106.2 0.0

72 SS 500 kV Shagol Chelyabinsk 2015 2,669.1 0.0

73 SS 500 kV Magnitogorskaya Chelyabinsk 2015 437.1 0.0 (installation of CSR 500 kV)

500 kV West Siberia 7,453.4 0.0

74 SS 220 kV Demiyanskaya Tyumen 2017 7,453.4 0.0

220 kV 2,463.8 0.0

75 SS 220 kV Kamenskaya Sverdlovsk 2015.2016 2,463.8 0.0

Facilities for power generation 10,945.0

500kV 75,973.2 0.0

220 kV 140,365.0 10,945.0

210 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2018 Total development)

mln RUB mln RUB

0.0 4,067.5

0.0 1,180.2

0.0 870.1 JSC «FGC UES» C

0.0 310.1 JSC «FGC UES» P

0.0 2,235.1

0.0 2,235.1 JSC «FGC UES» C

0.0 652.2

0.0 652.2 JSC «FGC UES» C

10,945.0 186,109.8

0.0 60,340.3

10,945.0 125,769.5

한국전기산업연구원 211 러시아 에너지시스템 시장 현황

사. UPS of Siberia

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 0.0 0.0 0.0

TPP 0.0 0.0 0.0 220 kV 0.0 0.0 0.0 Construction of OL 220 kV CDSS (central distribution substation) of CHPP PMCW 1 Zabaikalsk 2019 150 km (Priargunsky mining and chemikal works) — Bystrinskaya Interconnection power transmission lines 455.0 0.0 0.0 500 kV 455.0 0.0 0.0 OL 500 kV Nizhnevartovskaya SDPP — 35 km, Sovetsko-Sosnonskaya with enlargement of Tyumen, 2 SS 220 kV Sovetsko-Sosnonskaya Tomsk 2014-2016 501+167 35.0 MVA (construction of SWYD 500 kV)

OL 500 kV Sovetsko-Sosnonskaya — 3 Parabel Tomsk 2018 340 km

110 km, 260 km, 501+167 4 OL 500 kV Tomskaya — Parabel with SS Tomsk 2014,2015,2 MVA, SR 180 110.0 500/220 kV Parabel 016 Mvar, CSR 180 Mvar

Omsk, 5 OL 500 kV Voskhod — Ishim (Vityaz) Tyumen 2014 310 km 310.0

Providing the opportunity of hooking up new consumers, and also implementation of technical 338.0 1,293.0 300.0 specifications 500 and 220 kV 338.0 1,293.0 300.0 4x501 MVA, SCB 4x100 2014,2015,2 Mvar, 2-CR 6 SS 500 kV Ozernaya Irkutsk 016 (controlled 668.0 300.0 reactor) 100 Mvar

OL 500 kV Bratsky SP — Ozernaya with 7 enlargement of SWYD 500 kV Bratskaya Irkutsk 2017 230 km SP 501+167 MVA, SR 180 Mvar, CSR 8 SS 500 kV Ust-Kut with Irkutsk 2015 — 180 Mvar, SRPC 2x50 Mvar Approach of OL 500 kV Ust-Ilimskaya HPP Zkurim at SWYD 500 kV of SS 9 — Irkutsk 2015 3 km 500 kV Ust-Kut with change-over of OL to nominal voltage

Approaches of OL 220 kV Korshunikha — 10 Zvezdnaya at SWYD 220 kV of SS 500 kV 2015 2 km Ust-Kut Irkutsk Approaches of OL 220 kV Korshunikha — 11 Lena at SWYD 220 kV of SS 500 kV 2015 2 km Ust-Kut

212 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 150.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 150.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 150.0 0.0 0.0

150.0

260.0 0.0 0.0 0.0 1,336.0 360.0 0.0 0.0 0.0 340.0 0.0 0.0 0.0 0.0 0.0 260.0 0.0 0.0 0.0 1,336.0 360.0 0.0 0.0 0.0 340.0 0.0 0.0 0.0 0.0 0.0

668.0

340.0

260.0 668.0 360.0

728.0 1,928.0 460.0 790.5 2,196.0 530.0 2,497.8 1,376.0 0.0 717.0 982.0 720.0 1,409.4 1,152.0 0.0

728.0 1,928.0 460.0 790.5 2,196.0 530.0 2,497.8 1,376.0 0.0 717.0 982.0 720.0 1,409.4 1,152.0 0.0

334.0 1,002.0 300.0

230.0

668.0 460.0

3.0

2.0

2.0

한국전기산업연구원 213 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 150.0 0.0 0.0

TPP 150.0 0.0 0.0 220 kV 150.0 0.0 0.0 Construction of OL 220 kV CDSS (central distribution substation) of CHPP 1 Zabaikalsk 2019 150 km 150.0 0.0 0.0 PMCW (Priargunsky mining and chemikal works) — Bystrinskaya

Interconnection power transmission lines 1,055.0 1,336.0 360.0 500 kV 1,055.0 1,336.0 360.0

OL 500 kV Nizhnevartovskaya SDPP — Sovetsko-Sosnonskaya with enlargement Tyumen, 35 km, 2 2014-2016 501+167 35.0 668.0 0.0 of SS 220 kV Sovetsko-Sosnonskaya Tomsk MVA (construction of SWYD 500 kV)

OL 500 kV Sovetsko-Sosnonskaya 3 — Tomsk 2018 340 km 340.0 0.0 0.0 Parabel

110 km, 260 km, 501+167 4 OL 500 kV Tomskaya — Parabel with Tomsk 2014, 2015, MVA, SR 180 370.0 668.0 360.0 SS 500/220 kV Parabel 2016 Mvar, CSR 180 Mvar

Omsk, 5 OL 500 kV Voskhod Ishim (Vityaz) 2014 310 km 310.0 0.0 0.0 — Tyumen

Providing the opportunity of hooking up new consumers, and also implementation of 6,480.7 8,927.0 2,010.0 technical specifications 500 and 220 kV 6,480.7 8,927.0 2,010.0 4x501 MVA, SCB 4x100 2014, 2015, Mvar, 2-CR 6 SS 500 kV Ozernaya Irkutsk 0.0 2,004.0 600.0 2016 (controlled reactor) 100 Mvar

OL 500 kV Bratsky SP — Ozernaya 7 with enlargement of SWYD 500 kV Irkutsk 2017 230 km 230.0 0.0 0.0 Bratskaya SP 501+167 MVA, SR 180 8 SS 500 kV Ust-Kut with Irkutsk 2015 Mvar, CSR 0.0 668.0 460.0 — 180 Mvar, SRPC 2x50 Mvar Approach of OL 500 kV Ust-Ilimskaya HPP Zkurim at SWYD 500 kV of SS 9 — Irkutsk 2015 3 km 3.0 0.0 0.0 500 kV Ust-Kut with change-over of OL to nominal voltage Approaches of OL 220 kV Korshunikha 10 — Zvezdnaya at SWYD 220 kV of SS 2015 2 km 2.0 0.0 0.0 500 kV Ust-Kut Irkutsk Approaches of OL 220 kV Korshunikha 11 — Lena at SWYD 220 kV of SS 500 2015 2 km 2.0 0.0 0.0 kV Ust-Kut

214 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

2,754.0 0.0 0.0 0.0 0.0

2,754.0 0.0 0.0 0.0 0.0 2,754.0 0.0 0.0 0.0 0.0

2,754.0 0.0 0.0 0.0 0.0

31,845.0 3,855.0 4,566.0 7,194.0 9,194.0 31,845.0 3,855.0 4,566.0 7,194.0 9,194.0

4,531.0 2,233.0 2,233.0 0.0 0.0

7,291.0 101.0 1,000.0 2,513.0 3,513.0

11,690.0 208.0 1,000.0 4,681.0 5,681.0

8,333.0 1,313.0 333.0 0.0 0.0

213,672.0 10,806.0 16,617.0 56,671.0 58,426.0

213,672.0 10,806.0 16,617.0 56,671.0 58,426.0

11,248.0 1,210.0 0.0 0.0 0.0

11,595.0 0.0 0.0 5,610.0 5,985.0

8,780.0 207.0 1,000.0 942.0 6,583.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

한국전기산업연구원 215 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 1,340.0

TPP 1,340.0 220 kV 1,340.0 Construction of OL 220 kV CDSS (central distribution substation) of CHPP PMCW 1 (Priargunsky mining and chemikal works) Zabaikalsk 2019 150 km 1,340.0 — Bystrinskaya

Interconnection power transmission lines 0.0 500 kV 0.0

OL 500 kV Nizhnevartovskaya SDPP — Sovetsko-Sosnonskaya with enlargement of Tyumen, 35 km, 2 SS 220 kV Sovetsko-Sosnonskaya Tomsk 2014-2016 501+167 MVA 0.0 (construction of SWYD 500 kV)

OL 500 kV Sovetsko-Sosnonskaya — 3 Parabel Tomsk 2018 340 km 0.0

110 km, 260 OL 500 kV Tomskaya Parabel with SS 2014, 2015, km, 501+167 4 — Tomsk MVA, SR 180 0.0 500/220 kV Parabel 2016 Mvar, CSR 180 Mvar

Omsk, 5 OL 500 kV Voskhod Ishim (Vityaz) 2014 310 km 0.0 — Tyumen

Providing the opportunity of hooking up new consumers, and also implementation of technical 35,727.0 specifications 500 and 220 kV 35,727.0 4x501 MVA, SCB 4x100 2014, 2015, Mvar, 2-CR 6 SS 500 kV Ozernaya Irkutsk 2016 (controlled 0.0 reactor) 100 Mvar

OL 500 kV Bratsky SP — Ozernaya with 7 enlargement of SWYD 500 kV Bratskaya Irkutsk 2017 230 km 0.0 SP 501+167 MVA, SR 180 Mvar, CSR 8 SS 500 kV Ust-Kut with Irkutsk 2015 — 0.0 180 Mvar, SRPC 2x50 Mvar Approach of OL 500 kV Ust-Ilimskaya HPP — Zkurim at SWYD 500 kV of SS 9 500 kV Ust-Kut with change-over of OL to Irkutsk 2015 3 km 0.0 nominal voltage

Approaches of OL 220 kV Korshunikha — 10 Zvezdnaya at SWYD 220 kV of SS 500 kV 2015 2 km 0.0 Ust-Kut Irkutsk Approaches of OL 220 kV Korshunikha — 11 Lena at SWYD 220 kV of SS 500 kV 2015 2 km 0.0 Ust-Kut

216 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

1,414.0 2,754.0

1,414.0 2,754.0 1,414.0 2,754.0

1,414.0 2,754.0 Investor P

0.0 24,809.0 0.0 24,809.0

0.0 4,466.0 JSC «FGC UES» P

0.0 7,127.0 JSC «FGC UES» P

0.0 11,570.0 JSC «FGC UES» P

0.0 1,646.0 JSC «FGC UES» C

19,955.0 198,202.0

19,955.0 198,202.0

JSC «Irkutsk electric grid 0.0 1,210.0 company» C

0.0 11,595.0 JSC «Irkutsk electric grid P company»

0.0 8,732.0

0.0 0.0 JSC «FGC UES» P

0.0 0.0

0.0 0.0

한국전기산업연구원 217 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) 501+167 OL 500 kV Ust-Kut — Nizhneangarsk with MVA, CSR 12 SS 500/220 kV Nizhneangarskaya with Irkutsk, 2016 180 Mvar, approaches of two chains of OL 220 kV Buryatia SRPC 50 Severobaykalskaya — Uoyan Mvar, 289 km

677 km, 501+167 OL 500 kV Nizhneangarskaya — Chara 13 Buryatia-Chita 2018 MVA, CSR with SS 500 kV Chara 180 Mvar, SR 180 Mvar

CSR 180 SS 500 kV at OL 500 kV Nizhneangarsk Buryatia, 14 Chara Zabaikalsk 2018 Mvar, SR — 180 Mvar

15 SS 220 kV Mamakan (installation of AT 2014 125 MVA 125.0 220/110 kV) Irkutsk Change-over of the 2d chain 16 2014 Taksimo-Mamakanskaya HPP to 220 kV

17 OL 220 kV Shelekhovo — Klyuchi №2 Irkutsk 2015 1 km

Change-over of OL 220 kV Shelekhovo — 18 Baikalsk PPM with a branch line at SS Irkutsk 2015 1 km Slyudyanka I chain with SS 220 kV Shelekhovo at SWYD 220 kV Klyuchi

19 OL 500 kV Oznachennoe — Stepnaya Khakasia 2016 51.5 km

20 SS 220 kV Stepnaya Khakasia 2016 2x63 MVA

OL 220 kV Bratskaya HPP — Zavodskaya №2 with reconstruction of OL 220 kV 21 Bratskaya HPP — OBS-4 and Irkutsk 2014 11 km 11.0 dismantlement of branch line at SS 220 kV Zavodskaya

Construction of double-circuit OL 220 kV 2x119.9 km Goryachenskaya — Barguzin 22 Buryatia 2015 SS 220 kV Barguzin and reconstrucrion of 2x25 MVA SWYD 220 kV Tataurovo

OL 220 kV Kharanorskaya SDPP — 2x153 km, Bugdainskaya-Bystrinskaya 2x75 km 23 Zabaikalsk 2015 with SS 220 kV Bugdainskaya and SS 220 2x125 + kV Bystrinskaya 2x125 MVA

SS 220 kV Tayga 2x125 MVA 250.0 24 Krasnoyarsk 2014 withOL220kVRazdolinskaya—Taygaandreco 2x100 km 200.0 nstructionofSSRazdolinskaya

25 OL 220 kV Ozernaya — TAZ Irkutsk 2014-2015 4x2 km 4.0

218 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 20198 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

289.0 668.0 230.0

667.0 668.0 360.0

360.0

1.0

1.0

51.5

126.0

239.8

50.0

456.0

500.0

4.0

한국전기산업연구원 219 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) 501+167 OL 500 kV Ust-Kut — Nizhneangarsk with MVA, CSR 12 SS 500/220 kV Nizhneangarskaya with Irkutsk, 2016 180 Mvar, 289.0 668.0 230.0 approaches of two chains of OL 220 kV Buryatia SRPC 50 Severobaykalskaya — Uoyan Mvar, 289 km

677 km, OL 500 kV Nizhneangarskaya Chara 501+167 13 — Buryatia-Chita 2018 MVA, CSR 667.0 668.0 360.0 with SS 500 kV Chara 180 Mvar, SR 180 Mvar

CSR 180 SS 500 kV at OL 500 kV Nizhneangarsk Buryatia, 14 Chara Zabaikalsk 2018 Mvar, SR 0.0 0.0 360.0 — 180 Mvar

15 SS 220 kV Mamakan (installation of AT 2014 125 MVA 0.0 125.0 0.0 220/110 kV) Irkutsk Change-over of the 2d chain 16 2014 0.0 0.0 0.0 Taksimo-Mamakanskaya HPP to 220 kV

17 OL 220 kV Shelekhovo — Klyuchi №2 Irkutsk 2015 1 km 1.0 0.0 0.0

Change-over of OL 220 kV Shelekhovo — Baikalsk PPM with a branch line at SS 18 Irkutsk 2015 1 km 1.0 0.0 0.0 Slyudyanka I chain with SS 220 kV Shelekhovo at SWYD 220 kV Klyuchi

19 OL 500 kV Oznachennoe — Stepnaya Khakasia 2016 51.5 km 51.5 0.0 0.0

20 SS 220 kV Stepnaya Khakasia 2016 2x63 MVA 0.0 126.0 0.0

OL 220 kV Bratskaya HPP — Zavodskaya №2 with reconstruction of OL 220 kV 21 Bratskaya HPP — OBS-4 and Irkutsk 2014 11 km 11.0 0.0 0.0 dismantlement of branch line at SS 220 kV Zavodskaya

Construction of double-circuit OL 220 kV 2x119.9 km 239.8 0.0 0.0 Goryachenskaya — Barguzin 22 Buryatia 2015 SS 220 kV Barguzin and reconstrucrion of 2x25 MVA 0.0 50.0 0.0 SWYD 220 kV Tataurovo

OL 220 kV Kharanorskaya SDPP 2x153 km, — 456.0 0.0 0.0 Bugdainskaya-Bystrinskaya 2x75 km 23 Zabaikalsk 2015 with SS 220 kV Bugdainskaya and SS 220 2x125 + 0.0 500.0 0.0 kV Bystrinskaya 2x125 MVA

SS 220 kV Tayga 2x125 MVA 0.0 250.0 0.0 24 Krasnoyarsk 2014 withOL220kVRazdolinskaya Taygaandreco — 2x100 km 200.0 0.0 0.0 nstructionofSSRazdolinskaya

25 OL 220 kV Ozernaya — TAZ Irkutsk 2014-2015 4x2 km 8.0 0.0 0.0

220 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

17,164.0 1,036.0 3,200.0 6,972.0 5,692.0

30,561.0 0.0 0.0 9,529.0 10,166.0

2,909.0 0.0 0.0 0.0 0.0

400.0 400.0 0.0 0.0 0.0

90.0 90.0 0.0 0.0 0.0

203.0 0.0 203.0 0.0 0.0

203.0 0.0 203.0 0.0 0.0

1,102.0 0.0 0.0 1,102.0 0.0

1,677.0 0.0 812.0 865.0 0.0

314.0 314.0 0.0 0.0 0.0

6,721.0 1,248.0 833.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

5,090.0 1,306.0 1,631.0 2,078.0 0.0

0.0 0.0 0.0 0.0 0.0

5,505.0 694.0 278.0 4,128.0 0.0

0.0 0.0 0.0 0.0 0.0

92.0 41.0 51.0 0.0 0.0

한국전기산업연구원 221 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) facility № Name of the project Power system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) 501+167 OL 500 kV Ust-Kut — Nizhneangarsk with MVA, CSR SS 500/220 kV Nizhneangarskaya with Irkutsk, 180 Mvar, 12 approaches of two chains of OL 220 kV Buryatia 2016 SRPC 50 0.0 Severobaykalskaya — Uoyan Mvar, 289 km

677 km, 501+167 OL 500 kV Nizhneangarskaya — Chara 13 with SS 500 kV Chara Buryatia-Chita 2018 MVA, CSR 10,866.0 180 Mvar, SR 180 Mvar

CSR 180 14 SS 500 kV at OL 500 kV Nizhneangarsk Buryatia, 2018 Mvar, SR 2,909.0 Chara Zabaikalsk — 180 Mvar

SS 220 kV Mamakan (installation of AT 15 2014 125 MVA 0.0 220/110 kV) Irkutsk Change-over of the 2d chain 16 Taksimo-Mamakanskaya HPP to 220 kV 2014 0.0

17 OL 220 kV Shelekhovo — Klyuchi №2 Irkutsk 2015 1 km 0.0

Change-over of OL 220 kV Shelekhovo — Baikalsk PPM with a branch line at SS 18 Irkutsk 2015 1 km 0.0 Slyudyanka I chain with SS 220 kV Shelekhovo at SWYD 220 kV Klyuchi

19 OL 500 kV Oznachennoe — Stepnaya Khakasia 2016 51.5 km 0.0

20 SS 220 kV Stepnaya Khakasia 2016 2x63 MVA 0.0

OL 220 kV Bratskaya HPP — Zavodskaya №2 with reconstruction of OL 220 kV 21 Bratskaya HPP — OBS-4 and Irkutsk 2014 11 km 0.0 dismantlement of branch line at SS 220 kV Zavodskaya

Construction of double-circuit OL 220 kV 2x119.9 km 0.0 Goryachenskaya — Barguzin 22 Buryatia 2015 SS 220 kV Barguzin and reconstrucrion of 2x25 MVA 0.0 SWYD 220 kV Tataurovo

OL 220 kV Kharanorskaya SDPP — 2x153 km, 0.0 Bugdainskaya-Bystrinskaya 2x75 km 23 Zabaikalsk 2015 with SS 220 kV Bugdainskaya and SS 220 2x125 + 0.0 kV Bystrinskaya 2x125 MVA

SS 220 kV Tayga 2x125 MVA 0.0 24 Krasnoyarsk 2014 withOL220kVRazdolinskaya—Taygaandreco nstructionofSSRazdolinskaya 2x100 km 0.0

25 OL 220 kV Ozernaya — TAZ Irkutsk 2014-2015 4x2 km 0.0

222 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 16,900.0 JSC «FGC UES» P

0.0 30,561.0 JSC «FGC UES» P

0.0 2,909.0 JSC «FGC UES» P

0.0 400.0 CJSC «Vitimenergo» P

0.0 90.0 CJSC «Vitimenergo» P

0.0 203.0 JSC «Irkutsk electric grid C company»

JSC «Irkutsk electric grid 0.0 203.0 C company»

0.0 1,102.0 JSC «FGC UES» P

0.0 1,677.0 JSC «FGC UES» P

JSC «Irkutsk electric grid 0.0 314.0 company» P

0.0 2,081.0 JSC «FGC UES» C 0.0 0.0

0.0 5,015.0 JSC «FGC UES» P 0.0 0.0

0.0 5,100.0

JSC «FGC UES» 0.0 0.0

JSC «Irkutsk electric grid 0.0 92.0 company»

한국전기산업연구원 223 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

26 OL 220 kV Chertovo Koryto Peleduy Irkutsk, 2017 2x190 km — Yakutsk

OL 220 kV Chertovo Koryto Sukhoy 27 — Irkutsk 2017 2x58 km Log

28 OL 220 kV Sukhoy Log — Artemovskaya Irkutsk 2017 2x108 km

29 OL 220 kV Artemovskaya — Mamakan Irkutsk 2017 2x61.9 km

30 SS220kVArtemovskaya Irkutsk 2017.2018 2x63 MVA

31 SS 220 kV Chertovo Koryto Irkutsk 2017 2x63 MVA

32 SS 220 kV Sukhoy Log Irkutsk 2017 2x63 MVA

OL 220 kV Artemovskaya — 33 Kropotkinskaya with Irkutsk 2017 2x64.5 km

34 SS 220 kV Kropotkinskaya Irkutsk 2017.2018 2x125 MVA

SS 220 kV Vostochnaya with Irkutsk 2014.2015 2x250 MVA 250.0 35 OL 220 kV Irkutskaya — Vostochnaya Irkutsk 2014 2x61.5 km 123.0 Two one-circuit OL 220 kV SS Kirenskaya 36 — SS Rassokha with branch lines at SS Irkutsk 2017 2x175.5 km Nadezhdenskaya

37 SS 220 kV Kirenskaya Irkutsk 2017 2x63 MVA

38 SS220kVRassokha Irkutsk 2017 2x25 MVA

39 SS 220 kV Nadezhdenskaya Irkutsk 2017 2x25 MVA

40 One-circuit OL 220 kV SS Ust-Kut — Irkutsk 2017 51 km Bobrovka

41 SS 220 kV Bobrovka Irkutsk 2017 2x25 MVA

One-circuit OL 220 kV SS Bobrovka 42 — Irkutsk 2017 251 km SS Kirenskaya

43 One-circuit OL 220 kV SS Ust-Kut — SS Irkutsk 2017 201 km Tira

44 SS 220 kV Tira Irkutsk 2017 2x25 MVA

224 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

380.0

116.0

216.0

123.8

63.0 63.0

126.0

126.0

129.0

125.0 125.0

250.0

351.0

126.0

50.0

50.0

51.0

50.0

251.0

201.0

50.0

한국전기산업연구원 225 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar)

26 OL 220 kV Chertovo Koryto Peleduy Irkutsk, 2017 2x190 km 380.0 0.0 0.0 — Yakutsk

OL 220 kV Chertovo Koryto Sukhoy 27 — Irkutsk 2017 2x58 km 116.0 0.0 0.0 Log

28 OL 220 kV Sukhoy Log — Artemovskaya Irkutsk 2017 2x108 km 216.0 0.0 0.0

29 OL 220 kV Artemovskaya — Mamakan Irkutsk 2017 2x61.9 km 123.8 0.0 0.0

30 SS220kVArtemovskaya Irkutsk 2017.2018 2x63 MVA0.0 126.0 0.0

31 SS 220 kV Chertovo Koryto Irkutsk 2017 2x63 MVA 0.0 126.0 0.0

32 SS 220 kV Sukhoy Log Irkutsk 2017 2x63 MVA 0.0 126.0 0.0

OL 220 kV Artemovskaya — 33 Kropotkinskaya with Irkutsk 2017 2x64.5 km 129.0 0.0 0.0

34 SS 220 kV Kropotkinskaya Irkutsk 2017.2018 2x125 MVA 0.0 250.0 0.0

35 SS 220 kV Vostochnaya with Irkutsk 2014.2015 2x250 MVA 0.0 500.0 0.0

123.0 0.0 0.0

Two one-circuit OL 220 kV SS Kirenskaya 36 — SS Rassokha with branch lines at SS Irkutsk 2017 2x175.5 km 351.0 0.0 0.0 Nadezhdenskaya

37 SS 220 kV Kirenskaya Irkutsk 2017 2x63 MVA 0.0 126.0 0.0

38 SS220kVRassokha Irkutsk 2017 2x25 MVA0.0 50.0 0.0

39 SS 220 kV Nadezhdenskaya Irkutsk 2017 2x25 MVA 0.0 50.0 0.0

40 One-circuit OL 220 kV SS Ust-Kut — Irkutsk 2017 51 km 51.0 0.0 0.0 Bobrovka

41 SS 220 kV Bobrovka Irkutsk 2017 2x25 MVA 0.0 50.0 0.0

One-circuit OL 220 kV SS Bobrovka 42 — Irkutsk 2017 251 km 251.0 0.0 0.0 SS Kirenskaya

43 One-circuit OL 220 kV SS Ust-Kut — SS Irkutsk 2017 201 km 201.0 0.0 0.0 Tira

44 SS 220 kV Tira Irkutsk 2017 2x25 MVA 0.0 50.0 0.0

226 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 20165 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

5,310.0 0.0 2,572.0 2,738.0 0.0

1,672.0 0.0 0.0 1,672.0 0.0

3,216.0 0.0 0.0 1,578.0 1,638.0

1,903.0 0.0 0.0 0.0 1,903.0

1,952.0 0.0 0.0 0.0 944.0

1,068.0 0.0 0.0 517.0 551.0

1,827.0 0.0 0.0 885.0 942.0

1,983.0 0.0 0.0 0.0 1,983.0

2,653.0 0.0 0.0 0.0 1,282.0

2,718.0 1,316.0 1,402.0 0.0 0.0

1,661.0 1,661.0 0.0 0.0 0.0

5,411.0 0.0 0.0 2,618.0 2,793.0

1,827.0 0.0 0.0 884.0 943.0

999.0 0.0 0.0 507.0 492.0

999.0 0.0 0.0 507.0 492.0

812.0 0.0 0.0 0.0 812.0

999.0 0.0 0.0 507.0 492.0

3,869.0 0.0 0.0 1,872.0 1,997.0

3,098.0 0.0 0.0 1,499.0 1,599.0

999.0 0.0 0.0 507.0 492.0

한국전기산업연구원 227 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Irkutsk, 26 OL 220 kV Chertovo Koryto Peleduy 2017 2x190 km 0.0 — Yakutsk

27 OL 220 kV Chertovo Koryto — Sukhoy Irkutsk 2017 2x58 km 0.0 Log

28 OL 220 kV Sukhoy Log — Artemovskaya Irkutsk 2017 2x108 km 0.0

29 OL 220 kV Artemovskaya — Mamakan Irkutsk 2017 2x61.9 km 0.0

30 SS220kVArtemovskaya Irkutsk 2017.2018 2x63 MVA1,008.0

31 SS 220 kV Chertovo Koryto Irkutsk 2017 2x63 MVA 0.0

32 SS 220 kV Sukhoy Log Irkutsk 2017 2x63 MVA 0.0

OL 220 kV Artemovskaya — 33 Kropotkinskaya with Irkutsk 2017 2x64.5 km 0.0

34 SS 220 kV Kropotkinskaya Irkutsk 2017.2018 2x125 MVA 1,371.0

35 SS 220 kV Vostochnaya with Irkutsk 2014.2015 2x250 MVA 0.0

OL 220 kV Irkutskaya — Vostochnaya Irkutsk 2014 2x61.5 km 0.0 Two one-circuit OL 220 kV SS Kirenskaya 36 — SS Rassokha with branch lines at SS Irkutsk 2017 2x175.5 km 0.0 Nadezhdenskaya

37 SS 220 kV Kirenskaya Irkutsk 2017 2x63 MVA 0.0

38 SS220kVRassokha Irkutsk 2017 2x25 MVA0.0

39 SS 220 kV Nadezhdenskaya Irkutsk 2017 2x25 MVA 0.0

One-circuit OL 220 kV SS Ust-Kut — 40 Bobrovka Irkutsk 2017 51 km 0.0

41 SS 220 kV Bobrovka Irkutsk 2017 2x25 MVA 0.0

One-circuit OL 220 kV SS Bobrovka 42 — Irkutsk 2017 251 km 0.0 SS Kirenskaya

43 One-circuit OL 220 kV SS Ust-Kut — SS Irkutsk 2017 201 km 0.0 Tira

44 SS 220 kV Tira Irkutsk 2017 2x25 MVA 0.0

228 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

JSC «Far East energy 0.0 5,310.0 management company»

JSC «Far East energy 0.0 1,672.0 management company»

JSC «Far East energy 0.0 3,216.0 management company»

JSC «Far East energy 0.0 1,903.0 management company»

JSC «Far East energy 0.0 1,952.0 management company»

0.0 1,068.0 JSC «Far East energy management company»

0.0 1,827.0 JSC «Far East energy management company»

0.0 1,983.0 JSC «SC «Transneft»

2,653.0 JSC «SC «Transneft»

0.0 2,718.0 JSC «Irkutsk electric grid company» JSC «Irkutsk electric grid 0.0 1,661.0 company»

0.0 5,411.0

0.0 1,827.0

0.0 999.0

0.0 999.0

0.0 812.0 Investor

0.0 999.0

0.0 3,869.0

0.0 3,098.0

0.0 999.0

한국전기산업연구원 229 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

45 One-circuitOL220kVSSTira— SS Kirenskaya Irkutsk 2017 81 km

Double-circuit OL 220 kV Bratskaya — SS 46 Chuksha with branch lines at SS 220 kV Irkutsk 2017 2x150 km Tab' with enlargement of two cells of SWYD 220 kV of SS Bratskiy SP

47 SS 220 kV Chuksha Irkutsk 2017 2x40 MVA

48 SS 220 kV Tab' Irkutsk 2017 2x40 MVA

ConstructionofOL110kVBiyskayaCHPP—Biry 49 uzovayaKatun'withinglimits220kVwithcange-o 2x63 MVA vertonominalvoltage220kVandoverlead-inofO Altai 2018 L220kVatDU220kVofSS220kVBiyskayaandco 50 nstructionofDU220kVatSS110kVBiryuzovaya 2x25 km Katun'

Double-circuit OL 220 kV Rayonnaya — 2x400 km Khorkinsk-Eravna

51 SS 220 kV KhorkinskBuryatia 2019 1x63 MVA

SS 220 kV Eravna 1x63 MVA

Construction of SP 220 kV Novolugovoy with approach of one chain of OL 220 kV 52 2x9 km Zarya — Vostochnaya and one chain Belovskaya SDPP — Vostochnaya Construction of SS 220 kV in Berdsk city 53 with lines 220 kV from SP 220 kV 2x125 MVA, 2x19.5 km Novolugovoy Novosibirsk 2019

OL (CL) 220 kV SS Tulinskaya — SS 54 Startovaya (1 chain) 12.4 km

55 SS 220 kV Startovaya 2x200 MVA

SS 220 kV Levoberezhnaya 200 MVA 56 Omsk 2017 with approaches of one chain of OL 220 2x9 km kV Omskaya CHPP-4 — Luzino

57 SS 220 kV Zhernovskaya-1 2x63 MVA Kuzbass 2015 two one-circuit OL 220 kV Kuzbasskaya 58 2x9.6 km — Zhernovskaya-1 №1, 2

59 OL 220 kV Turan — Irbis with Tyva 2019 2x170 km 60 SS 220 kV Airbis Tyva 2019 2x63 MVA

61 OL 220 kV Irbis — Tumannaya with Tyva 2019 2x100 km 62 SS 220 kV Tumannaya Tyva 2019 2x125 MVA

230 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

81.0

300.0

80.0

80.0

126.0

50.0

800.0

63.0

63.0

18.0

39.0 250.0

12.4

400.0

200.0

18.0

126.0

19.2

340.0 126.0 200.0 250.0

한국전기산업연구원 231 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar)

45 One-circuitOL220kVSSTira— SS Kirenskaya Irkutsk 2017 81 km 81.0 0.0 0.0

Double-circuit OL 220 kV Bratskaya — SS Chuksha with branch lines at SS 220 kV 46 Tab' with enlargement of two cells of Irkutsk 2017 2x150 km 300.0 0.0 0.0 SWYD 220 kV of SS Bratskiy SP

47 SS 220 kV Chuksha Irkutsk 2017 2x40 MVA 0.0 80.0 0.0

48 SS 220 kV Tab' Irkutsk 2017 2x40 MVA 0.0 80.0 0.0

ConstructionofOL110kVBiyskayaCHPP—Biry 49 uzovayaKatun'withinglimits220kVwithcange-o 2x63 MVA 0.0 126.0 0.0 vertonominalvoltage220kVandoverlead-inofO L220kVatDU220kVofSS220kVBiyskayaandco Altai 2018 50 nstructionofDU220kVatSS110kVBiryuzovaya 2x25 km 50.0 0.0 0.0 Katun'

Double-circuit OL 220 kV Rayonnaya — Khorkinsk-Eravna 2x400 km 800.0 0.0 0.0

51 SS 220 kV KhorkinskBuryatia 2019 1x63 MVA 0.0 63.0 0.0

SS 220 kV Eravna 1x63 MVA 0.0 63.0 0.0

Construction of SP 220 kV Novolugovoy with approach of one chain of OL 220 kV 52 2x9 km 18.0 0.0 0.0 Zarya — Vostochnaya and one chain Belovskaya SDPP — Vostochnaya Construction of SS 220 kV in Berdsk city 2x125 MVA, 53 with lines 220 kV from SP 220 kV 2x19.5 km 39.0 250.0 0.0 Novolugovoy Novosibirsk 2019 OL (CL) 220 kV SS Tulinskaya SS 54 — 12.4 km 12.4 0.0 0.0 Startovaya (1 chain)

55 SS 220 kV Startovaya 2x200 MVA 0.0 400.0 0.0

SS 220 kV Levoberezhnaya 200 MVA 0.0 200.0 0.0 56 Omsk 2017 with approaches of one chain of OL 220 2x9 km 18.0 0.0 0.0 kV Omskaya CHPP-4 — Luzino

57 SS 220 kV Zhernovskaya-1 2x63 MVA 0.0 126.0 0.0 Kuzbass 2015 two one-circuit OL 220 kV Kuzbasskaya 58 2x9.6 km 19.2 0.0 0.0 — Zhernovskaya-1 №1, 2

59 OL 220 kV Turan — Irbis with Tyva 2019 2x170 km 340.0 0.0 0.0 60 SS 220 kV Airbis Tyva 2019 2x63 MVA 0.0 126.0 0.0

61 OL 220 kV Irbis — Tumannaya with Tyva 2019 2x100 km 200.0 0.0 0.0 62 SS 220 kV Tumannaya Tyva 2019 2x125 MVA 0.0 250.0 0.0

232 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

1,289.0 0.0 0.0 0.0 1,289.0

6,372.0 0.0 0.0 3,083.0 3,289.0

1,036.0 0.0 0.0 0.0 1,036.0

1,036.0 0.0 0.0 0.0 1,036.0

1,859.0 0.0 0.0 0.0 983.0

951.0 0.0 0.0 0.0 0.0

12,884.0 0.0 0.0 0.0 0.0

1,959.0 0.0 0.0 0.0 0.0

1,959.0 0.0 0.0 0.0 0.0

602.0 0.0 0.0 0.0 0.0

3,301.0 0.0 0.0 0.0 0.0

508.0 0.0 0.0 0.0 0.0

2,928.0 0.0 0.0 0.0 0.0

2,691.0 200.0 200.0 1,500.0 791.0

0.0 0.0 0.0 0.0 0.0

1,573.0 1,083.0 490.0 0.0 0.0

578.0 0.0 578.0 0.0 0.0

5,142.0 0.0 0.0 0.0 0.0 2,774.0 0.0 0.0 0.0 0.0 2,827.0 0.0 0.0 0.0 0.0 2,817.0 0.0 0.0 0.0 0.0

한국전기산업연구원 233 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar)

45 One-circuitOL220kVSSTira— SS Kirenskaya Irkutsk 2017 81 km 0.0

Double-circuit OL 220 kV Bratskaya — SS Chuksha with branch lines at SS 220 kV 46 Tab' with enlargement of two cells of Irkutsk 2017 2x150 km 0.0 SWYD 220 kV of SS Bratskiy SP

47 SS 220 kV Chuksha Irkutsk 2017 2x40 MVA 0.0

48 SS 220 kV Tab' Irkutsk 2017 2x40 MVA 0.0

ConstructionofOL110kVBiyskayaCHPP—Biry 49 uzovayaKatun'withinglimits220kVwithcange-o 2x63 MVA 876.0 vertonominalvoltage220kVandoverlead-inofO Altai 2018 L220kVatDU220kVofSS220kVBiyskayaandco 50 nstructionofDU220kVatSS110kVBiryuzovaya 2x25 km 951.0 Katun'

Double-circuit OL 220 kV Rayonnaya — 2x400 km 6,269.0 Khorkinsk-Eravna

51 SS 220 kV KhorkinskBuryatia 2019 1x63 MVA 0.0

SS 220 kV Eravna 1x63 MVA 0.0

Construction of SP 220 kV Novolugovoy 52 with approach of one chain of OL 220 kV 2x9 km 0.0 Zarya — Vostochnaya and one chain Belovskaya SDPP — Vostochnaya Construction of SS 220 kV in Berdsk city 53 with lines 220 kV from SP 220 kV 2x125 MVA, 1,453.0 2x19.5 km Novolugovoy Novosibirsk 2019 OL (CL) 220 kV SS Tulinskaya SS 54 — 12.4 km 508.0 Startovaya (1 chain)

55 SS 220 kV Startovaya 2x200 MVA 1,751.0

SS 220 kV Levoberezhnaya 200 MVA 56 Omsk 2017 with approaches of one chain of OL 220 2x9 km 0.0 kV Omskaya CHPP-4 — Luzino

57 SS 220 kV Zhernovskaya-1 2x63 MVA 0.0 Kuzbass 2015 two one-circuit OL 220 kV Kuzbasskaya 58 2x9.6 km 0.0 — Zhernovskaya-1 №1, 2

59 OL 220 kV Turan — Irbis with Tyva 2019 2x170 km 3,294.0 60 SS 220 kV Airbis Tyva 2019 2x63 MVA 1,751.0

61 OL 220 kV Irbis — Tumannaya with Tyva 2019 2x100 km 1,751.0 62 SS 220 kV Tumannaya Tyva 2019 2x125 MVA 969.0

234 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project 2019 total project implementation development)

mln RUB mln RUB

0.0 1,289.0

0.0 6,372.0 Investor

0.0 1,036.0

0.0 1,036.0

0.0 1,859.0 P JSC «FGC UES», JSC «IDGC of Siberia» 0.0 951.0

6,615.0 12,884.0

1,959.0 1,959.0 JSC «FGC UES»

1,959.0 1,959.0

602.0 602.0 JSC «Eleckromagistral»

1,848.0 3,301.0 JSC «Eleckromagistral»

0.0 508.0 JSC «Eleckromagistral» 1,177.0 2,928.0

2,691.0 JSC «FGC UES» 0.0 0.0

0.0 1,573.0 CJSC «EPK»

0.0 578.0 JSC «FGC UES»

1,848.0 5,142.0 1,023.0 2,774.0 JSC «FGC UES» 1,076.0 2,827.0 1,848.0 2,817.0

한국전기산업연구원 235 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

63 SS 220 kV Karakanskaya with 2x125 MVA Kemerovo 2017 approach of OL 220 kV Belovskaya SDPP 64 — Novokuznetskaya at SS 220 kV 2x25 km Karakanskaya Two one-circuit OL 220 kV SS Kamala-1 65 — Kingashskaya with SS 220 kV Krasnoyarsk 2016 2x225 km, Kingashskaya and enlargement of SS 500 2x200 MVA kV Kamala

Facilities for relieving of transmission constraints and reinforcement of reliability of electric 270.4 0.0 180.0 power supply to existing consumers 500 and 220 kV 270.4 0.0 180.0 SS 500 kV Kuzbasskaya with installation 66 Kuzbass 2017 2x267 MVA the 2d AT 500 kV Change-over of OL 500 kV 67 Novokuznetskaya — Barnaul at SS 500 kV Kuzbass 2017 2x5.6 km Kuzbasskaya Change-over of one OL 500 kV 68 Sayano-Shushenskaya HPP — Kuzbass 2017 1 km Novokuznetskaya at SS 500 kV Kuzbasskaya Change-over of OL 220 kV 69 Novokuznetskaya — Sokolovskaya at SS Kuzbass 2017 4.8 km 500 kV Kuzbasskaya

70 OL 220 kV Uskatskaya — Evrazovskaya Kuzbass 2017 2x31.3 km

OL 500 kV Aluminievaya — Abakanskaya 71 Itatskaya with reconstruction of SS 500 Khakasia, 2014 270.4 km, 270.4 180.0 — Krasnoyarsk SR 180 Mvar kV Abakanskaya and SS Itatskaya SS 500 kV Enisey (installation of the 2d 72 Krasnoyarsk 2015 801 MVA AT 500 kV)

SS Voskhod (installation of the 2d AT 500 73 Omsk 2019 2x167 MVA kV) 240 km OL 500 kV Enisey — Itatskaya with 74 enlargement of SWYS 500 kV of SS Krasnoyarsk 2015 CSR 180+60 Enisey and SWYD 500 kV of SS Itatskaya Mvar

OL 500 kV Enisey — Kamala with 75 enlargement of SWYS 500 kV of SS Krasnoyarsk 2016 130 km Enisey and SWYD 500 kV of SS Kamala

OL 500 kV Klyuchi — Gusinoozersky — Irkutsk, Petrovsk — Zabaykalsky — Chita Buryatia, 2019 (change-over to nominal voltage 500 kV) Zabaikalsk

SP 500 kV Petrovsk — Zabaykalsky 2019 CSR180Mvar 76 Zabaikalsk with constuction of SWYD 500 kV Chita 2019 501+167MVA, SR180Mvar 501+167 with constuction of SS 500 kV MVA, 2x1.5 Gusinoozerskaya with approaches of OL Buryatia 2019 500 kV km, SR 2x180 Mvar

236 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

250.0

50.0

450.0 400.0

402.0 1,301.0 240.0 196.0 175.0 0.0 384.6 534.0 200.0 1,047.0 375.0 0.0 3.0 1,670.0 720.0

402.0 1,301.0 240.0 196.0 175.0 0.0 384.6 534.0 200.0 1,047.0 375.0 0.0 3.0 1,670.0 720.0

534.0

11.2

1.0

4.8

62.6

801.0

334.0

240.0

240.0

130.0

180.0

668.0 180.0

3.0 668.0 360.0

한국전기산업연구원 237 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) 63 SS 220 kV Karakanskaya with 2x125 MVA 0.0 250.0 0.0 Kemerovo 2017 approach of OL 220 kV Belovskaya 64 SDPP — Novokuznetskaya at SS 220 kV 2x25 km 50.0 0.0 0.0 Karakanskaya Two one-circuit OL 220 kV SS Kamala-1 65 — Kingashskaya with SS 220 kV Krasnoyarsk 2016 2x225 km, 450.0 400.0 0.0 Kingashskaya and enlargement of SS 500 2x200 MVA kV Kamala

Facilities for relieving of transmission constraints and reinforcement of reliability of electric 2,303.0 4,055.0 1,340.0 power supply to existing consumers 500 and 220 kV 2,303.0 4,055.0 1,340.0 SS 500 kV Kuzbasskaya with installation 66 Kuzbass 2017 2x267 MVA 0.0 534.0 0.0 the 2d AT 500 kV Change-over of OL 500 kV 67 Novokuznetskaya — Barnaul at SS 500 Kuzbass 2017 2x5.6 km 11.2 0.0 0.0 kV Kuzbasskaya Change-over of one OL 500 kV 68 Sayano-Shushenskaya HPP — Kuzbass 2017 1 km 1.0 0.0 0.0 Novokuznetskaya at SS 500 kV Kuzbasskaya Change-over of OL 220 kV 69 Novokuznetskaya — Sokolovskaya at SS Kuzbass 2017 4.8 km 4.8 0.0 0.0 500 kV Kuzbasskaya

70 OL 220 kV Uskatskaya — Evrazovskaya Kuzbass 2017 2x31.3 km 62.6 0.0 0.0

OL 500 kV Aluminievaya — Abakanskaya 71 Itatskaya with reconstruction of SS Khakasia, 2014 270.4 km, 270.4 0.0 180.0 — Krasnoyarsk SR 180 Mvar 500 kV Abakanskaya and SS Itatskaya SS 500 kV Enisey (installation of the 2d 72 Krasnoyarsk 2015 801 MVA 0.0 801.0 0.0 AT 500 kV)

SS Voskhod (installation of the 2d AT 73 Omsk 2019 2x167 MVA0.0 334.0 0.0 500 kV) 240 km 240.0 0.0 0.0 OL 500 kV Enisey — Itatskaya with 74 enlargement of SWYS 500 kV of SS Krasnoyarsk 2015 CSR 180+60 Enisey and SWYD 500 kV of SS Itatskaya Mvar 0.0 0.0 240.0

OL 500 kV Enisey — Kamala with 75 enlargement of SWYS 500 kV of SS Krasnoyarsk 2016 130 km 130.0 0.0 0.0 Enisey and SWYD 500 kV of SS Kamala

OL 500 kV Klyuchi — Gusinoozersky — Irkutsk, Petrovsk — Zabaykalsky — Chita Buryatia, 2019 0.0 0.0 0.0 (change-over to nominal voltage 500 kV) Zabaikalsk

SP 500 kV Petrovsk — Zabaykalsky 2019 CSR180Mvar 0.0 0.0 180.0 Zabaikalsk 76 with constuction of SWYD 500 kV Chita 2019 501+167MVA, 0.0 668.0 180.0 SR180Mvar

with constuction of SS 500 kV 501+167 MVA, 2x1.5 Gusinoozerskaya with approaches of OL Buryatia 2019 km, SR 3.0 668.0 360.0 500 kV 2x180 Mvar

238 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

2,484.0 0.0 0.0 1,202.0 1,282.0

939.0 0.0 0.0 0.0 939.0

6,533.0 0.0 3,164.0 3,369.0

84,549.0 4,552.0 5,205.0 10,506.0 25,234.0

84,549.0 4,552.0 5,205.0 10,506.0 25,234.0 2,000.0 0.0 566.0 530.0 904.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

10,300.0 1,500.0 445.0 0.0 0.0

5,190.0 500.0 199.0 57.0 0.0

471.0 0.0 0.0 0.0 0.0

8,000.0 306.0 700.0 700.0 6,000.0

0.0 0.0 0.0 0.0 0.0

3,000.0 0.0 300.0 2,000.0 700.0

0.0 0.0 0.0 0.0

5,394.0 0.0 0.0 80.0 554.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

한국전기산업연구원 239 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) facility № Name of the project Power system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) 63 SS 220 kV Karakanskaya with 2x125 MVA 0.0 Kemerovo 2017 approach of OL 220 kV Belovskaya SDPP 64 — Novokuznetskaya at SS 220 kV 2x25 km 0.0 Karakanskaya Two one-circuit OL 220 kV SS Kamala-1 — Kingashskaya with SS 220 kV 2x225 km, 65 Kingashskaya and enlargement of SS 500 Krasnoyarsk 2016 2x200 MVA 0.0 kV Kamala

Facilities for relieving of transmission constraints and reinforcement of reliability of electric power 17,920.0 supply to existing consumers 500 and 220 kV 17,920.0 66 SS 500 kV Kuzbasskaya with installation Kuzbass 2017 2x267 MVA 0.0 the 2d AT 500 kV Change-over of OL 500 kV 67 Novokuznetskaya — Barnaul at SS 500 kV Kuzbass 2017 2x5.6 km 0.0 Kuzbasskaya Change-over of one OL 500 kV Sayano-Shushenskaya HPP — 68 Novokuznetskaya at SS 500 kV Kuzbass 2017 1 km 0.0 Kuzbasskaya Change-over of OL 220 kV 69 Novokuznetskaya — Sokolovskaya at SS Kuzbass 2017 4.8 km 0.0 500 kV Kuzbasskaya

70 OL 220 kV Uskatskaya — Evrazovskaya Kuzbass 2017 2x31.3 km 0.0

OL 500 kV Aluminievaya Abakanskaya — Khakasia, 270.4 km, SR 71 — Itatskaya with reconstruction of SS 500 Krasnoyarsk 2014 180 Mvar 0.0 kV Abakanskaya and SS Itatskaya

72 SS 500 kV Enisey (installation of the 2d Krasnoyarsk 2015 801 MVA 0.0 AT 500 kV)

73 SS Voskhod (installation of the 2d AT 500 Omsk 2019 2x167 MVA 0.0 kV) 240 km 0.0 OL 500 kV Enisey — Itatskaya with 74 enlargement of SWYS 500 kV of SS Krasnoyarsk 2015 CSR 180+60 0.0 Enisey and SWYD 500 kV of SS Itatskaya Mvar

OL 500 kV Enisey — Kamala with 75 enlargement of SWYS 500 kV of SS Krasnoyarsk 2016 130 km 0.0 Enisey and SWYD 500 kV of SS Kamala

OL 500 kV Klyuchi — Gusinoozersky — Irkutsk, Petrovsk — Zabaykalsky — Chita Buryatia, 2019 0.0 (change-over to nominal voltage 500 kV) Zabaikalsk

SP 500 kV Petrovsk — Zabaykalsky 2019 CSR180Mvar 634.0 Zabaikalsk 76 501+167MVA, with constuction of SWYD 500 kV Chita 2019 SR180Mvar 0.0 501+167 with constuction of SS 500 kV MVA, 2x1.5 Gusinoozerskaya with approaches of OL Buryatia 2019 0.0 500 kV km, SR 2x180 Mvar

240 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 2,484.0 Investor

0.0 939.0 Investor

0.0 6,533.0 Investor

5,107.0 68,524.0

5,107.0 68,524.0 0.0 2,000.0 P

0.0 0.0 P

0.0 0.0JSC «FGC UES» P

0.0 0.0 P

0.0 0.0 P

0.0 1,945.0 JSC «FGC UES» C

0.0 756.0 JSC «FGC UES» C

471.0 471.0 JSC «FGC UES» P

0.0 7,706.0 P JSC «FGC UES» 0.0 0.0 P

0.0 3,000.0 JSC «FGC UES» P

0.0 0.0

4,126.0 5,394.0 JSC «FGC UES» P 0.0 0.0

0.0 0.0

한국전기산업연구원 241 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Construction of SS 500 kV Sheregesh, reconstruction of SS 500 kV Novokuznetsksya, SS 500 kV SCD capacity Kuzbasskaya, OL 500 kV 77 Sayano-Shushenskaya HPP Kuzbass 2019 is defined by — project Novokuznetsksya №1, OL 500 kV Sayano-Shushenskaya HPP — Novokuznetsksya №2 The 2d chain of transit 220 kV Tom-Usinskaya SDPP Stepnaya with Khakasia, 78 — 2018 315 km enlargement of TSS and installation of Kuzbass RPCS at TSS of transit

Construction of new SS 220 kV Chernogorskaya with construction of 2x40 km, 79 Khakasia 2018 double-circuit OL 220 kV Abakanskaya — 2x125 MVA Chernogorskaya

SS 220 kV Bagulnik 2x125 MVA 80 Zabaikalsk 2015 OL 220 kV Makkaveevo — Bagulnik — 2x70 km Chita

SS 220 kV Zharki 2x125 MVA 81 Krasnoyarsk 2015

OL 220 kV Novokrasnoyarskaya — Zharki 2x10 km

82 OL 220 kV Tomsk — Asino (2d OL) Tomsk 2018 67 km

Construction of approaches of OL 220 kV 83 Severnaya — Posolskaya at SS 220 kV Buryatia 2015 2x1 km Tataurovo

OL Taksimo — Chara 2d chain Buryatia, 84 (change-over to 220 kV with enlargement Zabaikalsky 2018 238/176 km of SWYD 220 kV of SS Chara) Krai

85 OL 220 kV Minusinsk — Koshurnikovo Krasnoyarsk 2018 160 km

Construction of OL 220 kV Kamala-1 — 86 Slavyanskaya traction Krasnoyarsk 2018 79 km

87 Construction of OL 220 kV Koshurnikovo Krasnoyarsk 2018 206 km — Slavyanskaya traction

OL 220 kV Shushenskaya Turan-Kyzyl — 305 km (2d chain) Krasnoyarsk, 88 Tyva 2017 with reconstruction of SWYD 220 kV of SS Turan 2x100 Mvar

OL 220 kV Oznachennoe 89 — Khakasia 2016 60 km Shushenskaya

90 OL 220 kV Vlasikha — Aleiskaya 2018 140 km Altai 91 SS 220 kV Aleiskaya 2018 125 MVA

242 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

315.0

80.0 250.0

250.0

140.0

250.0

20.0

67.0

2.0

160.0

79.0

206.0

305.0

200.0

60.0

140.0

125.0

한국전기산업연구원 243 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Construction of SS 500 kV Sheregesh, reconstruction of SS 500 kV Novokuznetsksya, SS 500 kV SCD capacity Kuzbasskaya, OL 500 kV 77 Sayano-Shushenskaya HPP Kuzbass 2019 is defined by 0.0 0.0 0.0 — project Novokuznetsksya №1, OL 500 kV Sayano-Shushenskaya HPP — Novokuznetsksya №2 The 2d chain of transit 220 kV Tom-Usinskaya SDPP Stepnaya with Khakasia, 78 — 2018 315 km 315.0 0.0 0.0 enlargement of TSS and installation of Kuzbass RPCS at TSS of transit

Construction of new SS 220 kV Chernogorskaya with construction of 2x40 km, 79 Khakasia 2018 80.0 250.0 0.0 double-circuit OL 220 kV Abakanskaya — 2x125 MVA Chernogorskaya

SS 220 kV Bagulnik 2x125 MVA 0.0 250.0 0.0 80 Zabaikalsk 2015 OL 220 kV Makkaveevo — Bagulnik — 2x70 km 140.0 0.0 0.0 Chita

SS 220 kV Zharki 2x125 MVA 0.0 250.0 0.0 81 Krasnoyarsk 2015

OL 220 kV Novokrasnoyarskaya — Zharki 2x10 km 20.0 0.0 0.0

82 OL 220 kV Tomsk — Asino (2d OL) Tomsk 2018 67 km 67.0 0.0 0.0

Construction of approaches of OL 220 kV 83 Severnaya — Posolskaya at SS 220 kV Buryatia 2015 2x1 km 2.0 0.0 0.0 Tataurovo

OL Taksimo — Chara 2d chain Buryatia, 84 (change-over to 220 kV with enlargement Zabaikalsky 2018 238/176 km 0.0 0.0 0.0 of SWYD 220 kV of SS Chara) Krai

85 OL 220 kV Minusinsk — Koshurnikovo Krasnoyarsk 2018 160 km 160.0 0.0 0.0

Construction of OL 220 kV Kamala-1 — 86 Slavyanskaya traction Krasnoyarsk 2018 79 km 79.0 0.0 0.0

87 Construction of OL 220 kV Koshurnikovo Krasnoyarsk 2018 206 km 206.0 0.0 0.0 — Slavyanskaya traction

OL 220 kV Shushenskaya Turan-Kyzyl — 305 km 305.0 0.0 0.0 (2d chain) Krasnoyarsk, 88 Tyva 2017 with reconstruction of SWYD 220 kV of SS Turan 2x100 Mvar 0.0 0.0 200.0

OL 220 kV Oznachennoe 89 — Khakasia 2016 60 km 60.0 0.0 0.0 Shushenskaya

90 OL 220 kV Vlasikha — Aleiskaya 2018 140 km 140.0 0.0 0.0 Altai 91 SS 220 kV Aleiskaya 2018 125 MVA 0.0 125.0 0.0

244 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

5,492.0 250.0 420.0 514.0 510.0

6,253.0 0.0 0.0 0.0 3,276.0

4,048.0 0.0 0.0 0.0 2,293.0

0.0 0.0 0.0 0.0 0.0

3,536.0 1,206.0 1,376.0 841.0 0.0

1,164.0 697.0 416.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

1,216.0 0.0 0.0 0.0 1,216.0

210.0 0.0 80.0 109.0 21.0

5,383.0 38.0 38.0 38.0 488.0

3,218.0 0.0 0.0 1,555.0 1,663.0

1,909.0 0.0 0.0 0.0 0.0

4,678.0 0.0 0.0 0.0 2,357.0

6,144.0 0.0 500.0 2,000.0 3,200.0

0.0 0.0 0.0 0.0 0.0

1,100.0 55.0 165.0 770.0 110.0

2,352.0 0.0 0.0 0.0 714.0

2,179.0 0.0 0.0 0.0 1,228.0

한국전기산업연구원 245 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Construction of SS 500 kV Sheregesh, reconstruction of SS 500 kV Novokuznetsksya, SS 500 kV Kuzbasskaya, OL 500 kV SCD capacity 77 Kuzbass 2019 is defined by 510.0 Sayano-Shushenskaya HPP — project Novokuznetsksya №1, OL 500 kV Sayano-Shushenskaya HPP — Novokuznetsksya №2 The 2d chain of transit 220 kV 78 Tom-Usinskaya SDPP — Stepnaya with Khakasia, 2018 315 km 2,977.0 enlargement of TSS and installation of Kuzbass RPCS at TSS of transit

Construction of new SS 220 kV Chernogorskaya with construction of 2x40 km, 79 Khakasia 2018 1,755.0 double-circuit OL 220 kV Abakanskaya — 2x125 MVA Chernogorskaya

SS 220 kV Bagulnik 2x125 MVA 0.0 80 Zabaikalsk 2015 OL 220 kV Makkaveevo — Bagulnik — Chita 2x70 km 0.0

SS 220 kV Zharki 2x125 MVA 0.0 81 Krasnoyarsk 2015 OL 220 kV Novokrasnoyarskaya — Zharki 2x10 km 0.0

82 OL 220 kV Tomsk — Asino (2d OL) Tomsk 2018 67 km 0.0

Construction of approaches of OL 220 kV 83 Severnaya — Posolskaya at SS 220 kV Buryatia 2015 2x1 km 0.0 Tataurovo

OL Taksimo — Chara 2d chain Buryatia, 84 (change-over to 220 kV with enlargement Zabaikalsky 2018 238/176 km 4,781.0 of SWYD 220 kV of SS Chara) Krai

85 OL 220 kV Minusinsk — Koshurnikovo Krasnoyarsk 2018 160 km

Construction of OL 220 kV Kamala-1 — 86 Slavyanskaya traction Krasnoyarsk 2018 79 km 1,909.0

87 Construction of OL 220 kV Koshurnikovo Krasnoyarsk 2018 206 km 2,321.0 — Slavyanskaya traction

OL 220 kV Shushenskaya Turan-Kyzyl — 305 km 444.0 (2d chain) Krasnoyarsk, 88 Tyva 2017 with reconstruction of SWYD 220 kV of SS Turan 2x100 Mvar 0.0

OL 220 kV Oznachennoe 89 — Khakasia 2016 60 km Shushenskaya

90 OL 220 kV Vlasikha — Aleiskaya 2018 140 km 1,638.0 Altai 91 SS 220 kV Aleiskaya 2018 125 MVA 951.0

246 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2018 2019 development)

mln RUB mln RUB

510.0 2,714.0 JSC «FGC UES» P

2,977.0 6,253.0 Investor

1,755.0 4,048.0 Investor

0.0 0.0 P JSC «FGC UES» 0.0 3,423.0

0.0 1,113.0 P JSC «FGC UES» 0.0 0.0

0.0 1,216.0 Investor P

0.0 210.0 JSC «FGC UES»

4,781.0 5,383.0 JSC «FGC UES» P

3,218.0 JSC «FGC UES»

1,909.0 1,909.0 JSC «FGC UES»

2,321.0 4,678.0 JSC «FGC UES»

444.0 6,144.0 JSC «FGC UES» 0.0 0.0

1,100.0 JSC «FGC UES»

1,638.0 2,352.0 Investor

951.0 2,179.0 Investor

한국전기산업연구원 247 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Approaches of OL 220 kV Cheremkhovo Osa at SWYS 220 kV of SS 220 kV 92 — Irkutsk 2016 4 km Cheremkhovo (cpmplex reconstruction with replacement of AT)

93 SS 220 kV Osa 2016 125 MVA

94 SS 220 kV Sobolinskaya Irkutsk 2016 2x25 MVA

with approaches of OL 220 kV 95 Shelekhovo — Baikalsk PPM with branch 2016 2x1 km line at SS 220 kV Slyudyanka 1 chain

Facilities of renovation with increasing of transformer capacity 0.0 2,650.0 206.0

500 kV 0.0 0.0 0.0

SS 500 kV Taishet (installation of the 3rd 96 AT 500/110 kV) Irkutsk 2016 501 MVA

220 kV 0.0 2,650.0 206.0 SS 220 kV Pravoberezhnaya with 97 replacement of AT 2x125 MVA with 2x200 Krasnoyarsk 2015 2x200 MVA MVA

98 SS 220 kV Sora Khakasia 2014 2x125 MVA 250.0

99 SS 220 kV Sovetsko-Sosninskaya Tomsk 2014.2015 3x125 MVA 125.0

100 SS 220 kV Mezhdurechenskaya Kuzbass 2015 3x200 MVA 2x250, 3x200 101 SS 220 kV NKAZ-2 Kuzbass 2014 MVA, 2x52 1,100.0 104.0 Mvar

102 SS 220 kV Kyzylskaya Tyva 2015 2x125 MVA, 2x50 Mvar

103 SS 220 kV Zapadno-Sibirskaya Kuzbass 2018 2x250 MVA, 2x52 Mvar

104 SS 220 kV Rayonnaya (2d stage) Buryatia 2015 200MVA

105 SS Yuzhnaya (replacement of AT 125 Altai 2014 1x200 MVA 200.0 MVA with 200 MVA)

106 SS Vostochnaya Tomsk 2018 2x200 MVA + 2x63 MVA

107 Installation the 3rd AT at SS Vostochnaya Novosibirsk 2014 200 MVA 200.0 Replacement of 1,2 AT*125 with 2*200 at 108 2014.2015 2x200 MVA 200.0 SS 220 kV Pravoberezhnaya

Replacement of T*40 with AT*125 at SS 109 Novosibirsk 2014 1x125 MVA 125.0 220 kV Tulinskaya

Replacement of AT*125 with 1*200 at SS 110 Novosibirsk 2014 1x200 MVA 200.0 220 kV Yuzhnaya

2x125 MVA, Replacement of AT 2*63 with 2*125; 111 installation of SCB and CSR at SS 220 kV Novosibirsk 2014.2016 SCB 2x26 102.0 Mvar, CSR Urozhay 2x25 Mvar

248 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

4.0

125.0

50.0

2.0

0.0 2,225.0 100.0 0.0 1,751.0 0.0 0.0 0.0 0.0 0.0 1,026.0 104.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 501.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

501.0

0.0 2,225.0 100.0 0.0 1,250.0 0.0 0.0 0.0 0.0 0.0 1,026.0 104.0 0.0 0.0 0.0

400.0

250.0

600.0

250.0 100.0

500.0 104.0

200.0

526.0

200.0

250.0

한국전기산업연구원 249 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Approaches of OL 220 kV Cheremkhovo Osa at SWYS 220 kV of SS 220 kV 92 — Irkutsk 2016 4 km 4.0 0.0 0.0 Cheremkhovo (cpmplex reconstruction with replacement of AT)

93 SS 220 kV Osa 2016 125 MVA 0.0 125.0 0.0

94 SS 220 kV Sobolinskaya Irkutsk 2016 2x25 MVA 0.0 50.0 0.0

with approaches of OL 220 kV 95 Shelekhovo — Baikalsk PPM with branch 2016 2x1 km 2.0 0.0 0.0 line at SS 220 kV Slyudyanka 1 chain

Facilities of renovation with increasing of transformer capacity 0.0 7,652.0 410.0

500 kV 0.0 501.0 0.0

SS 500 kV Taishet (installation of the 3rd 96 AT 500/110 kV) Irkutsk 2016 501 MVA 0.0 501.0 0.0

220 kV 0.0 7,151.0 410.0 SS 220 kV Pravoberezhnaya with 97 replacement of AT 2x125 MVA with 2x200 Krasnoyarsk 2015 2x200 MVA 0.0 400.0 0.0 MVA

98 SS 220 kV Sora Khakasia 2014 2x125 MVA 0.0 250.0 0.0

99 SS 220 kV Sovetsko-Sosninskaya Tomsk 2014.2015 3x125 MVA 0.0 375.0 0.0

100 SS 220 kV Mezhdurechenskaya Kuzbass 2015 3x200 MVA 0.0 600.0 0.0

2x250, 3x200 101 SS 220 kV NKAZ-2 Kuzbass 2014 MVA, 2x52 0.0 1,100.0 104.0 Mvar

102 SS 220 kV Kyzylskaya Tyva 2015 2x125 MVA, 0.0 250.0 100.0 2x50 Mvar

103 SS 220 kV Zapadno-Sibirskaya Kuzbass 2018 2x250 MVA, 0.0 500.0 104.0 2x52 Mvar

104 SS 220 kV Rayonnaya (2d stage) Buryatia 2015 200MVA 0.0 200.0 0.0

105 SS Yuzhnaya (replacement of AT 125 Altai 2014 1x200 MVA 0.0 200.0 0.0 MVA with 200 MVA)

106 SS Vostochnaya Tomsk 2018 2x200 MVA 0.0 526.0 0.0 + 2x63 MVA

107 Installation the 3rd AT at SS Vostochnaya Novosibirsk 2014 200 MVA 0.0 200.0 0.0

Replacement of 1,2 AT*125 with 2*200 at 108 2014.2015 2x200 MVA 0.0 400.0 0.0 SS 220 kV Pravoberezhnaya

Replacement of T*40 with AT*125 at SS 109 Novosibirsk 2014 1x125 MVA 0.0 125.0 0.0 220 kV Tulinskaya

Replacement of AT*125 with 1*200 at SS 110 Novosibirsk 2014 1x200 MVA 0.0 200.0 0.0 220 kV Yuzhnaya

2x125 MVA, Replacement of AT 2*63 with 2*125; 111 installation of SCB and CSR at SS 220 kV Novosibirsk 2014.2016 SCB 2x26 0.0 250.0 102.0 Mvar, CSR Urozhay 2x25 Mvar

250 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

252.0 0.0 0.0 252.0 0.0

444.0 0.0 0.0 444.0 0.0

591.0 0.0 0.0 591.0 0.0

25.0 0.0 0.0 25.0 0.0

19,429.0 2,881.0 2,930.0 2,573.0 1,635.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

19,429.0 2,881.0 2,930.0 2,573.0 1,635.0

159.0 10.0 0.0 0.0 0.0

240.0 151.0 75.0 0.0 0.0

800.0 294.0 354.0 0.0 0.0

2,925.0 414.0 336.0 375.0 0.0

4,077.0 981.0 0.0 0.0 0.0

2,352.0 568.0 1,087.0 550.0 0.0

3,386.0 31.0 205.0 529.0 412.0

3,188.0 108.0 350.0 596.0 700.0

208.0 166.0 0.0 0.0 0.0

2,094.0 158.0 523.0 523.0 523.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

한국전기산업연구원 251 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) facility № Name of the project Power system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Approaches of OL 220 kV Cheremkhovo Osa at SWYS 220 kV of SS 220 kV 92 — Irkutsk 2016 4 km 0.0 Cheremkhovo (cpmplex reconstruction with replacement of AT) 93 SS 220 kV Osa 2016 125 MVA 0.0

94 SS 220 kV Sobolinskaya Irkutsk 2016 2x25 MVA 0.0

with approaches of OL 220 kV 95 Shelekhovo — Baikalsk PPM with branch 2016 2x1 km 0.0 line at SS 220 kV Slyudyanka 1 chain

Facilities of renovation with increasing of transformer capacity 3,195.0

500 kV 0.0 SS 500 kV Taishet (installation of the 3rd 96 Irkutsk 2016 501 MVA 0.0 AT 500/110 kV)

220 kV 3,195.0 SS 220 kV Pravoberezhnaya with 97 replacement of AT 2x125 MVA with 2x200 Krasnoyarsk 2015 2x200 MVA 0.0 MVA

98 SS 220 kV Sora Khakasia 2014 2x125 MVA 0.0 99 SS 220 kV Sovetsko-Sosninskaya Tomsk 2014.2015 3x125 MVA 0.0 100 SS 220 kV Mezhdurechenskaya Kuzbass 2015 3x200 MVA 0.0 2x250, 3x200 101 SS 220 kV NKAZ-2 Kuzbass 2014 MVA, 2x52 0.0 Mvar 2x125 MVA, 102 SS 220 kV Kyzylskaya Tyva 2015 2x50 Mvar 0.0

103 SS 220 kV Zapadno-Sibirskaya Kuzbass 2018 2x250 MVA, 2,155.0 2x52 Mvar 104 SS 220 kV Rayonnaya (2d stage) Buryatia 2015 200MVA 673.0

SS Yuzhnaya (replacement of AT 125 105 Altai 2014 1x200 MVA 0.0 MVA with 200 MVA)

106 SS Vostochnaya Tomsk 2018 2x200 MVA 367.0 + 2x63 MVA

107 Installation the 3rd AT at SS Vostochnaya Novosibirsk 2014 200 MVA 0.0

Replacement of 1,2 AT*125 with 2*200 at 108 SS 220 kV Pravoberezhnaya 2014.2015 2x200 MVA 0.0

109 Replacement of T*40 with AT*125 at SS Novosibirsk 2014 1x125 MVA 0.0 220 kV Tulinskaya

Replacement of AT*125 with 1*200 at SS 110 220 kV Yuzhnaya Novosibirsk 2014 1x200 MVA 0.0

Replacement of AT 2*63 with 2*125; 2x125 MVA, SCB 2x26 111 installation of SCB and CSR at SS 220 kV Novosibirsk 2014.2016 Mvar, CSR 0.0 Urozhay 2x25 Mvar

252 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 252.0 JSC «Irkutsk electric grid company»

JSC «Irkutsk electric grid 0.0 444.0 company»

JSC «Irkutsk electric grid 0.0 591.0 company»

0.0 25.0 JSC «Irkutsk electric grid company»

673.0 13,887.0

0.0 0.0 JSC «Irkutsk electric grid 0.0 0.0 company»

673.0 13,887.0

0.0 10.0 JSC «FGC UES» C

0.0 226.0 JSC «FGC UES» C 0.0 648.0 JSC «FGC UES» P 0.0 1,125.0 JSC «FGC UES» P

0.0 981.0 JSC «FGC UES» C

0.0 2,205.0 JSC «FGC UES» P

0.0 3,332.0 JSC «FGC UES» 673.0 3,100.0 JSC «FGC UES» P

0.0 166.0 JSC «FGC UES»

0.0 2,094.0 JSC «FGC UES»

0.0 0.0 JSC «Eleckromagistral» P

0.0 0.0 JSC «Eleckromagistral» P

0.0 0.0 JSC «Eleckromagistral» P

0.0 0.0 JSC «Eleckromagistral» P

JSC «Novosibirsk electric 0.0 0.0 grid company»

한국전기산업연구원 253 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar)

SS 220 kV Levoberezhnaya (reconstruction 112 with construction of SWYD 110 kV and Irkutsk 2014 250 MVA 250.0 installation of AT 220/110 kV)

SS 500 kV Tulun (reconstruction with 113 replacement of AT 220/110 kV — AT-2 Irkutsk 2016 2x250 MVA 120 MVA, AT-1 125 MVA)

SS 220 kV Cheremkhovo (complex 114 Irkutsk 2016 2x250 MVA reconstruction with replacement of AT)

115 Installation the 2d AT 200 MVA at SS Irkutsk 2015 1x200 MVA Shelekhovo

116 SS 220 kV Slyudyanka (replacement of Irkutsk 2015 1x125 MVA one AT 63 MVA with AT 125 MVA)

TOTAL, including 1,063.4 3,943.0 686.0

500 kV 725.4 668.0 480.0

220 kV 338.0 3,275.0 206.0

254 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

500.0

500.0

200.0

125.0

1,390.0 5,454.0 800.0 986.5 5,458.0 890.0 2,882.4 1,910.0 200.0 2,104.0 2,383.0 824.0 1,562.4 2,822.0 720.0

503.0 1,803.0 700.0 470.5 3,506.0 890.0 242.2 534.0 0.0 1,007.0 668.0 720.0 3.0 1,670.0 720.0

887.0 3,651.0 100.0 516.0 1,952.0 0.0 2,640.2 1,376.0 200.0 1,097.0 1,715.0 104.0 1,559.4 1,152.0 0.0

한국전기산업연구원 255 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar)

SS 220 kV Levoberezhnaya 112 (reconstruction with construction of SWYD Irkutsk 2014 250 MVA 0.0 250.0 0.0 110 kV and installation of AT 220/110 kV)

SS 500 kV Tulun (reconstruction with 113 replacement of AT 220/110 kV — AT-2 Irkutsk 2016 2x250 MVA 0.0 500.0 0.0 120 MVA, AT-1 125 MVA)

SS 220 kV Cheremkhovo (complex 114 Irkutsk 2016 2x250 MVA 0.0 500.0 0.0 reconstruction with replacement of AT)

115 Installation the 2d AT 200 MVA at SS Irkutsk 2015 1x200 MVA 0.0 200.0 0.0 Shelekhovo

116 SS 220 kV Slyudyanka (replacement of Irkutsk 2015 1x125 MVA 0.0 125.0 0.0 one AT 63 MVA with AT 125 MVA)

TOTAL, including 9,988.7 21,970.0 4,120.0

500 kV 2,951.1 8,849.0 3,510.0

220 kV 7,037.6 13,121.0 610.0

256 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

352,249.0 22,094.0 29,318.0 76,944.0 94,489.0

155,051.0 8,864.0 11,396.0 35,230.0 46,288.0

197,198.0 13,230.0 17,922.0 41,714.0 48,201.0

한국전기산업연구원 257 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar)

SS 220 kV Levoberezhnaya (reconstruction 112 with construction of SWYD 110 kV and Irkutsk 2014 250 MVA 0.0 installation of AT 220/110 kV)

SS 500 kV Tulun (reconstruction with 113 replacement of AT 220/110 kV — AT-2 Irkutsk 2016 2x250 MVA 0.0 120 MVA, AT-1 125 MVA)

SS 220 kV Cheremkhovo (complex 114 reconstruction with replacement of AT) Irkutsk 2016 2x250 MVA 0.0

Installation the 2d AT 200 MVA at SS 115 Shelekhovo Irkutsk 2015 1x200 MVA 0.0

SS 220 kV Slyudyanka (replacement of 116 Irkutsk 2015 1x125 MVA 0.0 one AT 63 MVA with AT 125 MVA)

TOTAL, including 58,182.0

500 kV 14,919.0

220 kV 43,263.0

258 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

JSC «Irkutsk electric grid 0.0 0.0 company»

0.0 0.0 JSC «Irkutsk electric grid company»

JSC «Irkutsk electric grid 0.0 0.0 company»

JSC «Irkutsk electric grid 0.0 0.0 company»

0.0 0.0 JSC «Irkutsk electric grid company»

27,149.0 308,176.0

5,107.0 121,804.0

22,042.0 186,372.0

한국전기산업연구원 259 러시아 에너지시스템 시장 현황

아. UPS of East

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 0.0 0.0 0.0

HPP 0.0 0.0 0.0 500 and 220 kV 0.0 0.0 0.0 Double-circuit OL 220 kV 1 Amur 2015 2x53 km Nizhnebureiskaya HPP — Arkhara OL 220 kV Nizhnebureiskaya HPP 2 — Amur 2015 21 km Zavitaya OL 500 kV Bureiskaya HPP Amurskaya — 280 km, SR 3 (2d OL) with enlargement of SWYD 500 Amur 2019 180 Mvar kV of SS Amurskaya

Interconnection power transmission lines 0.0 0.0 0.0 220 kV 0.0 0.0 0.0

4 Transforming complex at SS 220 kV Khani Amur 2019 450 MVA Amur, OL 220 kV Tynda Lopcha Khani 5 — — — Zabaikalsky 2015 560 km Chara Krai

Providing the opportunity of hooking up new consumers, and also implementation of echnical 1,128.2 844.0 75.0 specifications 220 kV 1,128.2 844.0 75.0

OL 220 kV Ledyanaya Vostochnaya — 9 km 9.0 (2d OL) 6 Amur 2014 Reconstruction of SWYD 220 kV of SS 220 kV Ledyanaya with enlargement with - 3 linear cells (2d stage)

2d OL 220 kV Prizeiskaya — Elgaugol 268 km 268.0 Amur, 125 MVA, 7 SS 220 kV Elgaugol 2014 125.0 75.0 Yakutia 75 Mvar

Approaches of OL 220 kV at SS 220 kV B 4 km 4.0 OL 220 kV Blagoveschenskaya 55 km, 52 — 109.2 Tambovka Varvarovka km, 2.2 km 8 — Amur 2014 withSS220kVTambovka 2x63 MVA 126.0

OL 220 kV Fevralsk — Rudnaya 174 km 174.0 9 Amur 2014 with SS 220 kV Rudnaya and enlargement 1x63 MVA 63.0 of SS 220 kV Fevralskaya with one cell

SS 220 kV OBS-23 2x25 MVA 10 Amur 2018 with approaches of OL 220 kV 2x1.7 km Klyuchevaya — Sivaki

260 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

127.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 280.0 0.0 180.0

127.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 280.0 0.0 180.0 127.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 280.0 0.0 180.0

106.0

21.0

280.0 180.0

560.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 450.0 0.0

560.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 450.0 0.0

450.0

560.0

122.0 270.0 0.0 471.4 1,053.0 0.0 0.0 0.0 0.0 33.4 150.0 0.0 472.0 700.0 0.0

122.0 270.0 0.0 471.4 1,053.0 0.0 0.0 0.0 0.0 33.4 150.0 0.0 472.0 700.0 0.0

50.0

3.4

한국전기산업연구원 261 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for power generation 407.0 0.0 180.0

HPP 407.0 0.0 180.0 500 and 220 kV 407.0 0.0 180.0 Double-circuit OL 220 kV 1 Amur 2015 2x53 km 106.0 0.0 0.0 Nizhnebureiskaya HPP — Arkhara OL 220 kV Nizhnebureiskaya HPP 2 — Amur 2015 21 km 21.0 0.0 0.0 Zavitaya OL 500 kV Bureiskaya HPP Amurskaya — 280 km, SR 3 (2d OL) with enlargement of SWYD 500 Amur 2019 280.0 0.0 180.0 180 Mvar kV of SS Amurskaya

Interconnection power transmission lines 560.0 450.0 0.0 220 kV 560.0 450.0 0.0 4 Transforming complex at SS 220 kV Khani Amur 2019 450 MVA 0.0 450.0 0.0

Amur, OL 220 kV Tynda Lopcha Khani 5 — — — Zabaikalsky 2015 560 km 560.0 0.0 0.0 Chara Krai

Providing the opportunity of hooking up new consumers, and also implementation of echnical 2,227.0 3,017.0 75.0 specifications 220 kV 2,227.0 3,017.0 75.0

OL 220 kV Ledyanaya Vostochnaya — 9 km 9.0 0.0 0.0 (2d OL) 6 Amur 2014 Reconstruction of SWYD 220 kV of SS 220 kV Ledyanaya with enlargement with -0.00.00.0 3 linear cells (2d stage)

2d OL 220 kV Prizeiskaya — Elgaugol 268 km 268.0 0.0 0.0 Amur, 125 MVA, 7 SS 220 kV Elgaugol 2014 0.0 125.0 75.0 Yakutia 75 Mvar

Approaches of OL 220 kV at SS 220 kV B 4 km 4.0 0.0 0.0

OL 220 kV Blagoveschenskaya 55 km, 52 — 109.2 0.0 0.0 Tambovka Varvarovka km, 2.2 km 8 — Amur 2014 withSS220kVTambovka 2x63 MVA0.0 126.0 0.0

OL 220 kV Fevralsk — Rudnaya 174 km 174.0 0.0 0.0 9 Amur 2014 with SS 220 kV Rudnaya and enlargement 1x63 MVA 0.0 63.0 0.0 of SS 220 kV Fevralskaya with one cell

SS 220 kV OBS-23 2x25 MVA 0.0 50.0 0.0 10 Amur 2018 with approaches of OL 220 kV 2x1.7 km 3.4 0.0 0.0 Klyuchevaya — Sivaki

262 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

26,645.0 880.0 1,194.0 0.0 4,914.0

26,645.0 880.0 1,194.0 0.0 4,914.0 26,645.0 880.0 1,194.0 0.0 4,914.0

1,589.0 677.0 912.0 0.0 0.0

485.0 203.0 282.0 0.0 0.0

24,571.0 0.0 0.0 0.0 4,914.0

10,803.7 3,676.0 50.0 50.0 331.0 10,803.7 3,676.0 50.0 50.0 331.0 1,940.8 50.0 50.0 50.0 331.0

8,862.9 3,626.0 0.0 0.0 0.0

78,850.2 12,542.2 18,727.8 10,767.0 1,965.0

78,850.2 12,542.2 18,727.8 10,767.0 1,965.0

1,106.0 271.0 0.0 0.0 0.0

684.0 243.0 0.0 0.0 0.0

0.0 0.0

12,000.0 5,140.0 201.6 0.0 0.0

0.0 0.0

1,807.6 226.2 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

3,651.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

1,122.0 0.0 0.0 0.0 491.0

0.0 0.0 0.0 0.0 0.0

한국전기산업연구원 263 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) facility № Name of the project Power system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for power generation 5,253.0

HPP 5,253.0 500 and 220 kV 5,253.0 Double-circuit OL 220 kV 1 Amur 2015 2x53 km 0.0 Nizhnebureiskaya HPP — Arkhara OL 220 kV Nizhnebureiskaya HPP 2 — Amur 2015 21 km 0.0 Zavitaya OL 500 kV Bureiskaya HPP Amurskaya — 280 km, SR 3 (2d OL) with enlargement of SWYD 500 Amur 2019 5,253.0 180 Mvar kV of SS Amurskaya

Interconnection power transmission lines 717.4 220 kV 717.4 4 Transforming complex at SS 220 kV Khani Amur 2019 450 MVA 717.4 Amur, OL 220 kV Tynda Lopcha Khani 5 — — — Zabaikalsky 2015 560 km 0.0 Chara Krai

Providing the opportunity of hooking up new consumers, and also implementation of echnical 11,643.0 specifications 220 kV 11,643.0

OL 220 kV Ledyanaya Vostochnaya — 9 km 0.0 (2d OL) 6*,** Amur 2014 Reconstruction of SWYD 220 kV of SS 220 kV Ledyanaya with enlargement with -0.0 3 linear cells (2d stage)

2d OL 220 kV Prizeiskaya — Elgaugol 268 km 0.0 Amur, 125 MVA, 7*** SS 220 kV Elgaugol 2014 0.0 Yakutia 75 Mvar

Approaches of OL 220 kV at SS 220 kV B 4 km 0.0

OL 220 kV Blagoveschenskaya 55 km, 52 — 0.0 Tambovka Varvarovka km, 2.2 km 8 — Amur 2014 withSS220kVTambovka 2x63 MVA 0.0

OL 220 kV Fevralsk — Rudnaya 174 km 0.0 9 Amur 2014 with SS 220 kV Rudnaya and enlargement 1x63 MVA 0.0 of SS 220 kV Fevralskaya with one cell

SS 220 kV OBS-23 2x25 MVA 631.0 10 Amur 2018 with approaches of OL 220 kV 2x1.7 km 0.0 Klyuchevaya — Sivaki

264 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

5,453.0 17,694.0

5,453.0 17,694.0 5,453.0 17,694.0

0.0 1,589.0 Investor

0.0 485.0 Investor

5,453.0 15,620.0 Investor

717.4 5,541.8

717.4 5,541.8 717.4 1,915.8 JSC «FGC UES» P

0.0 3,626.0 JSC «FGC UES» P

11,553.0 67,198.0

11,553.0 67,198.0

0.0 271.0 NIC RKP

0.0 243.0 JSC «FGC UES» P

0.0

0.0 5,341.6 JSC «FGC UES» C

0.0

0.0 728.5 JSC «FGC UES» C 0.0 0.0

0.0 2,006.0 JSC «Far East distribution grid company» 0.0 0.0

0.0 1,122.0 JSC «FGC UES» 0.0 0.0

한국전기산업연구원 265 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) SS 220 kV OBS-26 2x25 MVA 11 Amur 2018 withtwoone-circuitOL220kVBelogorsk OBS- — 2x5 km 26withenlargementofSS220kVBelogorsk

SS 220 kV OBS-22 Amur 2019 2x25 MVA 12 withtwoone-circuitOL220kVMagdachi OBS- — 2x40 km 22withenlargementofSS220kVMagdachi

SS 220 kV OBS-25 Amur 2019 2x25 MVA 13 with two one-circuit OL 220 kV Shimanovsk — OBS-25 with enlargement 2x40 km of SS 220 kV Shimanovsk

SS 220 kV OBS-28 Amur 2019 2x25 MVA withtwoone-circuitOL220kVRaychikhinskayaS 2x22 km 14 DPP—OBS-28 with approach-exit of one chain of double-circuit OL 220 kV Nizhnebureiskaya 2x8 km HPP — Arkhara

SS 220 kV IOBS 2x10 MVA 15 with approaches of OL 220 kV Khabarovsk 2016 Khabarovskaya — Start №1 with branch 2x3.7 km line at SS 220 kV Litovko

SS 220 kV MOBS 2x16 MVA 16 with approaches of OL 220 kV Khabarovsk 2016 Khabarovskaya — Start №2 with branch 2x1 km line at SS 220 kV Litovko

SS 220 kV OBS-29 Khabarovsk 2014 2x25 MVA 50.0 17 withtwoone-circuitOL220kVArkhara—OBS-29 2x30 km60.0

SS 220 kV OBS-32 Khabarovsk 2018 2x25 MVA

18 withtwoone-circuitOL220kVKhabarovskaya—O BS-23andenlargementofSWYD220kVofSS500k 2x10 km VKhabarovskaya

SS 220 kV OBS-33 2x25 MVA

19 with two one-circuit branch lines from OL Khabarovsk 2019 220 kV Khabarovskaya — Start at SS 220 2x1 km kV OBS-33

SS 220 kV Zvezda 2x125 MVA 20 Primorsk 2016 with approaches of OL 220 kV 2x10 km Beregovaya-2 — Pereval

266 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019 km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

50.0

10.0

50.0

80.0

50.0

80.0

50.0

44.0

16.0

20.0

7.4

32.0

2.0

50.0

20.0

50.0

2.0

250.0

20.0

한국전기산업연구원 267 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) SS 220 kV OBS-26 2x25 MVA 0.0 50.0 0.0 11 Amur 2018 withtwoone-circuitOL220kVBelogorsk OBS-2 — 2x5 km 10.0 0.0 0.0 6withenlargementofSS220kVBelogorsk SS 220 kV OBS-22 2x25 MVA 0.0 50.0 0.0

12 withtwoone-circuitOL220kVMagdachi OBS-2 Amur 2019 — 2x40 km 80.0 0.0 0.0 2withenlargementofSS220kVMagdachi

SS 220 kV OBS-25 2x25 MVA 0.0 50.0 0.0

13 with two one-circuit OL 220 kV Amur 2019 Shimanovsk — OBS-25 with enlargement 2x40 km 80.0 0.0 0.0 of SS 220 kV Shimanovsk

SS 220 kV OBS-28 2x25 MVA 0.0 50.0 0.0 withtwoone-circuitOL220kVRaychikhinskayaS 2x22 km 44.0 0.0 0.0 DPP OBS-28 14 — Amur 2019 with approach-exit of one chain of double-circuit OL 220 kV Nizhnebureiskaya 2x8 km 16.0 0.0 0.0 HPP — Arkhara SS 220 kV IOBS 2x10 MVA 0.0 20.0 0.0

15 with approaches of OL 220 kV Khabarovsk 2016 Khabarovskaya — Start №1 with branch 2x3.7 km 7.4 0.0 0.0 line at SS 220 kV Litovko

SS 220 kV MOBS 2x16 MVA 0.0 32.0 0.0

16 with approaches of OL 220 kV Khabarovsk 2016 Khabarovskaya — Start №2 with branch 2x1 km 2.0 0.0 0.0 line at SS 220 kV Litovko

SS 220 kV OBS-29 2x25 MVA 0.0 50.0 0.0 17 Khabarovsk 2014 withtwoone-circuitOL220kVArkhara—OBS-29 2x30 km60.0 0.0 0.0

SS 220 kV OBS-32 2x25 MVA 0.0 50.0 0.0

18 withtwoone-circuitOL220kVKhabarovskaya— Khabarovsk 2018 OBS-23andenlargementofSWYD220kVofSS5 2x10 km 20.0 0.0 0.0 00kVKhabarovskaya

SS 220 kV OBS-33 2x25 MVA 0.0 50.0 0.0

19 with two one-circuit branch lines from OL Khabarovsk 2019 220 kV Khabarovskaya — Start at SS 220 2x1 km 2.0 0.0 0.0 kV OBS-33

SS 220 kV Zvezda 2x125 MVA 0.0 250.0 0.0 20 Primorsk 2016 with approaches of OL 220 kV 2x10 km 20.0 0.0 0.0 Beregovaya-2 — Pereval

268 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

1,549.0 0.0 0.0 0.0 655.0

0.0 0.0 0.0 0.0 0.0

2,867.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

2,858.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

2,172.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

1,128.0 0.0 433.0 695.0 0.0

0.0 0.0 0.0 0.0 0.0

1,045.0 0.0 433.0 612.0 0.0

0.0 0.0 0.0 0.0 0.0

1,688.4 249.6 1,288.8 0.0 0.0

0.0 0.0 0.0 0.0

1,743.0 0.0 0.0 0.0 819.0

0.0 0.0 0.0 0.0 0.0

1,181.0 0.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

2,556.0 0.0 1,154.0 1,402.0 0.0

0.0 0.0 0.0 0.0 0.0

한국전기산업연구원 269 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) SS 220 kV OBS-26 2x25 MVA 894.0 11 Amur 2018 withtwoone-circuitOL220kVBelogorsk OBS-2 — 2x5 km 0.0 6withenlargementofSS220kVBelogorsk SS 220 kV OBS-22 2x25 MVA 1,226.0

12 withtwoone-circuitOL220kVMagdachi OBS-2 Amur 2019 — 2x40 km 0.0 2withenlargementofSS220kVMagdachi

SS 220 kV OBS-25 2x25 MVA 1,226.0

13 with two one-circuit OL 220 kV Amur 2019 Shimanovsk — OBS-25 with enlargement 2x40 km 0.0 of SS 220 kV Shimanovsk SS 220 kV OBS-28 2x25 MVA 963.0 withtwoone-circuitOL220kVRaychikhinskayaS 2x22 km 0.0 DPP OBS-28 14 — Amur 2019 with approach-exit of one chain of double-circuit OL 220 kV Nizhnebureiskaya 2x8 km 0.0 HPP — Arkhara SS 220 kV IOBS 2x10 MVA 0.0

15 with approaches of OL 220 kV Khabarovsk 2016 Khabarovskaya — Start №1 with branch 2x3.7 km 0.0 line at SS 220 kV Litovko SS 220 kV MOBS 2x16 MVA 0.0

16 with approaches of OL 220 kV Khabarovsk 2016 Khabarovskaya — Start №2 with branch 2x1 km 0.0 line at SS 220 kV Litovko

SS 220 kV OBS-29 2x25 MVA 0.0 17 Khabarovsk 2014 withtwoone-circuitOL220kVArkhara—OBS-29 2x30 km0.0

SS 220 kV OBS-32 2x25 MVA 924.0

18 withtwoone-circuitOL220kVKhabarovskaya— Khabarovsk 2018 OBS-23andenlargementofSWYD220kVofSS5 2x10 km 0.0 00kVKhabarovskaya

SS 220 kV OBS-33 2x25 MVA 525.0

19 with two one-circuit branch lines from OL Khabarovsk 2019 220 kV Khabarovskaya — Start at SS 220 2x1 km 0.0 kV OBS-33

SS 220 kV Zvezda 2x125 MVA 0.0 20 Primorsk 2016 with approaches of OL 220 kV 2x10 km 0.0 Beregovaya-2 — Pereval

270 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB 0.0 1,549.0 JSC «FGC UES» 0.0 0.0

1,641.0 2,867.0 JSC «FGC UES» 0.0 0.0

1,632.0 2,858.0

JSC «FGC UES» 0.0 0.0

1,209.0 2,172.0

0.0 0.0 JSC «FGC UES»

0.0 0.0

0.0 1,128.0 LLC «RN-Komsomolsky oil processing plant» 0.0 0.0

0.0 1,045.0 LLC «RN-Komsomolsky oil processing plant» 0.0 0.0

0.0 1,538.4 JSC «FGC UES» P 0.0 0.0

0.0 1,743.0

JSC «FGC UES» 0.0 0.0

656.0 1,181.0

JSC «FGC UES» 0.0 0.0

0.0 2,556.0 JSC «DSS» P 0.0 0.0

한국전기산업연구원 271 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) 2x125 MVA, SS 220 kV Atryem 330.0 2x40 MVA 21 Primorsk 2014 with approaches of PTL 220 kV 2x2 km 4.0 Vladivostok — Volna SS 220 kV Cherepakha 2x63 MVA 22 with approaches of OL 220 kV Vladivostok Primorsk 2016 2x1 km — Zeleny Ugol SS 220 kV Eastern petrochemical complex 3x125 MVA

23 with two one-circuit OL 220 kV Lozovaya Primorsk 2016 2x30 km — Eastern petrochemical complex

SS 220 kV Skrytaya 2x10 MVA

24 with approaches of OL 220 kV K Primorsk 2015 — 2x55 km Lesozavodsk

2x15 km 30.0 Two one-circuit OL 220 kV 25 Neryungrinskaya SDPP — OBS-19 with SS Yakutia 2014 220 kV of OBS-19 2x25 MVA 50.0

SS 220 kV Tarynnakhsky GOK 2x125 MVA

26 with double-circuit OL 220 kV Khani Yakutia 2016 — 2x190 km Tarynnakhsky GOK

SS 220 kV Tayezhny GOK 2x125 MVA

27 with branch lines from two chains of OL Yakutia 2015 2x6 km 220 kV Neryungrinskaya SDPP — OBS-18

SS 220 kV at OBS-11 with two one-circuit 2x25 MVA 50.0 28 branch lines from OL 220 kV Peleduy — Yakutia 2014 Gorodskaya 2x1 km 2.0 Two one-circuit OL 220 kV OBS-15 29 — Yakutia 2014 2x134 km 268.0 OBS-16

Two one-circuit OL 220 kV OBS-15 — 2x100 km 200.0 30 OBS-14 Yakutia 2014 with SS 220 kV at OBS-15 2x25 MVA 50.0 31 DClinkatSS220kVPeleduy Yakutia 2019 450 MVA

Two one-circuit OL 220 kV Peleduy 32 — 125+125 km Rassokha Yakutia 2019 Change-over of external power supply 33 scheme of OBS-10 to 220 kV (SS 220 kV 2x25 MVA Talakanskaya)

272 Russian Energy Systems Market Research 부록 1

Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

126.0

2.0

375.0

60.0

20.0

110.0

250.0

380.0

250.0

12.0

450.0

250.0

50.0

한국전기산업연구원 273 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) 2x125 MVA, SS 220 kV Atryem 0.0 330.0 0.0 2x40 MVA 21 Primorsk 2014 with approaches of PTL 220 kV 2x2 km 4.0 0.0 0.0 Vladivostok — Volna SS 220 kV Cherepakha 2x63 MVA 0.0 126.0 0.0 22 with approaches of OL 220 kV Vladivostok Primorsk 2016 2x1 km 2.0 0.0 0.0 — Zeleny Ugol SS 220 kV Eastern petrochemical complex 3x125 MVA 0.0 375.0 0.0

23 with two one-circuit OL 220 kV Lozovaya Primorsk 2016 2x30 km 60.0 0.0 0.0 — Eastern petrochemical complex

SS 220 kV Skrytaya 2x10 MVA 0.0 20.0 0.0

24 with approaches of OL 220 kV K Primorsk 2015 — 2x55 km 110.0 0.0 0.0 Lesozavodsk

2x15 km 30.0 0.0 0.0 Two one-circuit OL 220 kV 25 Neryungrinskaya SDPP — OBS-19 with SS Yakutia 2014 220 kV of OBS-19 2x25 MVA 0.0 50.0 0.0

SS 220 kV Tarynnakhsky GOK 2x125 MVA 0.0 250.0 0.0

26 with double-circuit OL 220 kV Khani Yakutia 2016 — 2x190 km 380.0 0.0 0.0 Tarynnakhsky GOK

SS 220 kV Tayezhny GOK 2x125 MVA 0.0 250.0 0.0

27 with branch lines from two chains of OL Yakutia 2015 2x6 km 12.0 0.0 0.0 220 kV Neryungrinskaya SDPP — OBS-18

SS 220 kV at OBS-11 with two one-circuit 2x25 MVA 0.0 50.0 0.0 28 branch lines from OL 220 kV Peleduy — Yakutia 2014 Gorodskaya 2x1 km 2.0 0.0 0.0 Two one-circuit OL 220 kV OBS-15 29 — Yakutia 2014 2x134 km 268.0 0.0 0.0 OBS-16 Two one-circuit OL 220 kV OBS-15 — 2x100 km 200.0 0.0 0.0 30 OBS-14 Yakutia 2014 with SS 220 kV at OBS-15 2x25 MVA 0.0 50.0 0.0

31 DClinkatSS220kVPeleduy Yakutia 2019 450 MVA0.0 450.0 0.0

Two one-circuit OL 220 kV Peleduy 32 — 125+125 km 250.0 0.0 0.0 Rassokha Yakutia 2019 Change-over of external power supply 33 scheme of OBS-10 to 220 kV (SS 220 kV 2x25 MVA 0.0 50.0 0.0 Talakanskaya)

274 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

1,148.3 700.0 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

1,709.0 0.0 721.0 988.0 0.0

0.0 0.0 0.0 0.0 0.0

3,787.0 0.0 1,875.0 1,912.0 0.0

0.0 0.0 0.0 0.0 0.0

2,264.0 1,015.0 1,249.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

1,260.8 300.0 885.8 0.0 0.0

0.0 0.0 0.0 0.0 0.0

8,042.0 0.0 2,884.0 5,158.0 0.0

0.0 0.0 0.0 0.0 0.0

2,748.0 1,218.0 1,530.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

593.1 65.8 444.8 0.0 0.0

0.0 0.0 0.0 0.0 0.0

3,155.4 531.6 2,556.1 0.0 0.0

3,315.6 300.0 2,845.6 0.0 0.0

0.0 0.0 0.0 0.0 0.0

4,990.0 0.0 0.0 0.0 0.0

6,065.0 0.0 0.0 0.0 0.0

614.0 0.0 0.0 0.0 0.0

한국전기산업연구원 275 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) 2x125 MVA, SS 220 kV Atryem 0.0 2x40 MVA 21 Primorsk 2014 with approaches of PTL 220 kV 2x2 km 0.0 Vladivostok — Volna SS 220 kV Cherepakha 2x63 MVA 0.0 22 with approaches of OL 220 kV Vladivostok Primorsk 2016 2x1 km 0.0 — Zeleny Ugol SS 220 kV Eastern petrochemical complex 3x125 MVA 0.0

23 with two one-circuit OL 220 kV Lozovaya Primorsk 2016 2x30 km 0.0 — Eastern petrochemical complex

SS 220 kV Skrytaya 2x10 MVA 0.0

24 with approaches of OL 220 kV K Primorsk 2015 — 2x55 km 0.0 Lesozavodsk

2x15 km 0.0 Two one-circuit OL 220 kV 25 Neryungrinskaya SDPP — OBS-19 with SS Yakutia 2014 220 kV of OBS-19 2x25 MVA 0.0

SS 220 kV Tarynnakhsky GOK 2x125 MVA 0.0

26 with double-circuit OL 220 kV Khani Yakutia 2016 — 2x190 km 0.0 Tarynnakhsky GOK

SS 220 kV Tayezhny GOK 2x125 MVA 0.0

27 with branch lines from two chains of OL Yakutia 2015 2x6 km 0.0 220 kV Neryungrinskaya SDPP — OBS-18

SS 220 kV at OBS-11 with two one-circuit 2x25 MVA 0.0 28 branch lines from OL 220 kV Peleduy — Yakutia 2014 Gorodskaya 2x1 km 0.0 Two one-circuit OL 220 kV OBS-15 29 — Yakutia 2014 2x134 km 0.0 OBS-16 Two one-circuit OL 220 kV OBS-15 — 2x100 km 0.0 30 OBS-14 Yakutia 2014 with SS 220 kV at OBS-15 2x25 MVA 0.0

31 DClinkatSS220kVPeleduy Yakutia 2019 450 MVA2,627.0

Two one-circuit OL 220 kV Peleduy 32 — 125+125 km 2,627.0 Rassokha Yakutia 2019 Change-over of external power supply 33 scheme of OBS-10 to 220 kV (SS 220 kV 2x25 MVA 0.0 Talakanskaya)

276 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

0.0 0.0 JSC «FGC UES» P 0.0 0.0

0.0 0.0 JSC «Nash dom — Primorie» P 0.0 0.0

0.0 0.0 - 0.0 0.0

0.0 0.0 JSC «Primorsky GOK» P 0.0 0.0

0.0 0.0

JSC «FGC UES» P 0.0 0.0

0.0 0.0

JSC «GMK Timir» 0.0 0.0

0.0 0.0

JSC «GMK Timir» 0.0 0.0

0.0 0.0 JSC «FGC UES» P 0.0 0.0

0.0 0.0 JSC «FGC UES» P

0.0 0.0 JSC «FGC UES» P 0.0 0.0

2,627.0 2,363.0 Investor

2,627.0 3,438.0 JSC «FGC UES»

0.0 614.0 Transneft

한국전기산업연구원 277 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 189.4 313.0 100.0 power supply to existing consumers

500kV 0.0 0.0 0.0 according to Installation of devices for control of grid results of parameters at SWYD 500 kV of Khabarovsk, 34 2015 technical and Primorskaya SDPP, SS 500 kV Khekhtsir-2, Primorsk economic SS 500 kV Chuguevka substantiation 450 km, OL 500 kV Primorskaya SDPP Primorsk, 35 — 2017 2xSR 180 Khabarovskaya (2d OL) Khabarovsk Mvar

220kV 189.4 313.0 100.0 SS 220 kV Skovorodino (installation of 36 Amur 2014 100 Mvar 100.0 CSR 220 kV)

SS 220 kV Olyekma (installation of 2d T 25 MVA 220/35 kV) 37 Amur 2016 Hooking up SS 220 kV Olyekma to two 0.8 km OL Yuktali — Khani

SS 220 kV Amur 2x125 MVA 250.0 38 Khabarovsk 2014 with approaches of OL 220 kV 4.38 km 4.4 Khabarovskaya CHPP-3 — RC

OL 220 kV Komsomolskaya — Vanino 125MVA with approaches to SS 220 kV Selekhino 39 Khabarovsk 2015 and installation of the 2d AT 125 MVA at SS 220 kV Vanino 486 km

Change-over of power supply of SS 220 40 kV Kozmino to project scheme because of Primorsk 2014 2x12 km 24.0 decommissioning of SS 500 kV Lozovaya

41 OL 220 kV Shirokaya — Lozovaya 33 km Primorsk 2015 with remote SWYD 220 kV at SS 110 kV 2x63 MVA Nakhodka

SS 400 kV Dalnevostochnaya (installation 42 Primorsk 2019 2x125 MVA of AT 220/110 kV)

OL220kVLesozavodsk Spassk Dalnevost 43 — — Primorsk 2019 245 km ochnaya

Approaches of double-circuit OL 220 kV

44 Primorskaya SDPP — Lesozavodsk at SS Primorsk 2017 2x(2x0.6) km 220 kV

278 Russian Energy Systems Market Research 부록 1

Physical quantities Physical quantities Physical quantities Physical quantities Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

1,433.7 627.0 80.0 0.8 25.0 0.0 452.4 0.0 360.0 700.0 126.0 0.0 245.0 250.0 0.0

0.0 0.0 0.0 0.0 0.0 0.0 450.0 0.0 360.0 0.0 0.0 0.0 0.0 0.0 0.0

450.0 360.0

1,433.7 627.0 80.0 0.8 25.0 0.0 2.4 0.0 0.0 700.0 126.0 0.0 245.0 250.0 0.0

25.0

0.8

125.0

486.0

33.0

126.0

250.0

245.0

2.4

한국전기산업연구원 279 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km Total ing SS, MVA km MVA Mvar (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 3,021.3 1,341.0 540.0 power supply to existing consumers

500kV 450.0 0.0 360.0 according to Installation of devices for control of grid results of parameters at SWYD 500 kV of Khabarovsk, 34 2015 technical and 0.0 0.0 0.0 Primorskaya SDPP, SS 500 kV Khekhtsir-2, Primorsk economic SS 500 kV Chuguevka substantiation 450 km, OL 500 kV Primorskaya SDPP Primorsk, 35 — 2017 2xSR 180 450.0 0.0 360.0 Khabarovskaya (2d OL) Khabarovsk Mvar

220kV 2,571.3 1,341.0 180.0 SS 220 kV Skovorodino (installation of 36 Amur 2014 100 Mvar 0.0 0.0 100.0 CSR 220 kV)

SS 220 kV Olyekma (installation of 2d T 25 MVA 0.0 25.0 0.0 220/35 kV) 37 Amur 2016 Hooking up SS 220 kV Olyekma to two 0.8 km 0.8 0.0 0.0 OL Yuktali — Khani SS 220 kV Amur 2x125 MVA 0.0 250.0 0.0 38 Khabarovsk 2014 with approaches of OL 220 kV 4.38 km 4.4 0.0 0.0 Khabarovskaya CHPP-3 — RC

OL 220 kV Komsomolskaya — Vanino 125MVA 0.0 125.0 0.0 with approaches to SS 220 kV Selekhino 39 Khabarovsk 2015 and installation of the 2d AT 125 MVA at SS 220 kV Vanino 486 km 486.0 0.0 0.0

Change-over of power supply of SS 220 40 kV Kozmino to project scheme because of Primorsk 2014 2x12 km 24.0 0.0 0.0 decommissioning of SS 500 kV Lozovaya

41 OL 220 kV Shirokaya — Lozovaya 33 km 33.0 0.0 0.0 Primorsk 2015 with remote SWYD 220 kV at SS 110 kV 2x63 MVA 0.0 126.0 0.0 Nakhodka

SS 400 kV Dalnevostochnaya (installation 42 Primorsk 2019 2x125 MVA 0.0 250.0 0.0 of AT 220/110 kV)

OL220kVLesozavodsk Spassk Dalnevost 43 — — Primorsk 2019 245 km 245.0 0.0 0.0 ochnaya

Approaches of double-circuit OL 220 kV

44 Primorskaya SDPP — Lesozavodsk at SS Primorsk 2017 2x(2x0.6) km 2.4 0.0 0.0 220 kV

280 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of construction 2014 2015 2016 2017

mln RUB mln RUB mln RUB mln RUB mln RUB

77,331.4 7,173.1 13,059.0 14,045.5 17,278.5

20,503.0 150.0 5,866.0 6,141.0 8,346.0

248.0 150.0 98.0 0.0 0.0

20,255.0 0.0 5,768.0 6,141.0 8,346.0

56,828.4 7,023.1 7,193.0 7,904.5 8,932.5

280.0 79.8 0.0 0.0 0.0

288.2 0.0 0.0 288.2 0.0

17.5 0.0 0.0 13.9 0.0

1,268.8 154.1 0.0 0.0 0.0

0.0 0.0 0.0 0.0 0.0

7,842.5 1,014.0 2,953.0 1,373.7 0.0

0.0 0.0 0.0 0.0 0.0

500.0 207.0 34.0 0.0 0.0

697.0 33.6 363.8 256.4 0.0

0.0 0.0 0.0 0.0 0.0

560.0 32.9 100.0 100.0 38.0

4,749.0 141.8 150.0 269.8 3,434.5

546.0 0.0 0.0 0.0 546.0

한국전기산업연구원 281 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) Facilities for relieving of transmission constraints and reinforcement of reliability of electric 7,863.0 power supply to existing consumers

500kV 0.0 according to Installation of devices for control of grid results of parameters at SWYD 500 kV of Khabarovsk, 34 2015 technical and 0.0 Primorskaya SDPP, SS 500 kV Khekhtsir-2, Primorsk economic SS 500 kV Chuguevka substantiation 450 km, OL 500 kV Primorskaya SDPP Primorsk, 35 — 2017 2xSR 180 0.0 Khabarovskaya (2d OL) Khabarovsk Mvar

220kV 7,863.0 SS 220 kV Skovorodino (installation of 36 Amur 2014 100 Mvar 0.0 CSR 220 kV)

SS 220 kV Olyekma (installation of 2d T 25 MVA 0.0 220/35 kV) 37 Amur 2016 Hooking up SS 220 kV Olyekma to two 0.8 km 0.0 OL Yuktali — Khani SS 220 kV Amur 2x125 MVA 0.0 38 Khabarovsk 2014 with approaches of OL 220 kV 4.38 km 0.0 Khabarovskaya CHPP-3 — RC

OL 220 kV Komsomolskaya — Vanino 125MVA 0.0 with approaches to SS 220 kV Selekhino 39 Khabarovsk 2015 and installation of the 2d AT 125 MVA at SS 220 kV Vanino 486 km 0.0

Change-over of power supply of SS 220 40 kV Kozmino to project scheme because of Primorsk 2014 2x12 km 0.0 decommissioning of SS 500 kV Lozovaya

OL 220 kV Shirokaya — Lozovaya 33 km 0.0 41 Primorsk 2015 with remote SWYD 220 kV at SS 110 kV 2x63 MVA 0.0 Nakhodka

SS 400 kV Dalnevostochnaya (installation 42 Primorsk 2019 2x125 MVA 100.0 of AT 220/110 kV)

OL220kVLesozavodsk Spassk Dalnevost 43 — — Primorsk 2019 245 km 239.0 ochnaya

Approaches of double-circuit OL 220 kV

44 Primorskaya SDPP — Lesozavodsk at SS Primorsk 2017 2x(2x0.6) km 0.0 220 kV

282 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 Total development)

mln RUB mln RUB

7,863.0 590.0

0.0 0.0

0.0 0.0 JSC «FGC UES» P

0.0 0.0 Investor

7,863.0 590.0

0.0 0.0 JSC «FGC UES»

0.0 0.0 Investor P 0.0 0.0 Investor

0.0 0.0

JSC «FGC UES» C 0.0 0.0

0.0 0.0 JSC «FGC UES» C 0.0 0.0

0.0 0.0 JSC «FGC UES» P

0.0 0.0 JSC «FGC UES» P 0.0 0.0

100.0 150.0 JSC «FGC UES» P

239.0 440.0 JSC «FGC UES» P

0.0 0.0 JSC «FGC UES»

한국전기산업연구원 283 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km 2014 ing SS, MVA km MVA Mvar (Mvar) OL 220 kV Neryungrinskaya SDPP — Nizhny Kuranakh — Tommot — Maiya with SS 220 kV Tommot and SS 220 kV 275 km Maiya 1st stage — OL 220 kV Neryungrinskaya SDPP — Nizhny Kuranakh (2d OL) (placed in commission)

2d stage 2d chain of OL 220 kV — 45.5 km Nizhny Kuranakh — Tommol 45 Yakutia 2015 and double-circuit OL 220 kV Tommot — 2x434.6 km Maiya

2x63 MVA, with SS 220 kV Tommot 2xSR 20 Mvar

2x125 MVA, and SS 220 kV Maiya 2xSR 20 Mvar

Two one-circuit OL 220 kV Maiya — 2x350 km Khandyga 46 Yakutia 2018

with SS 220 kV Khandyga 2x63 MVA

OL 220 kV Mirny — Suntar — Nyurba 161 km 161.0 47 Yakutia 2014 with SS 220 kV Nyurba 1x63 MVA 63.0

Facilities of renovation with increasing of transformer capacity 0.0 125.0 0.0

220 kV 0.0 125.0 0.0

SS 220 kV Klyuchevaya (installation of the 48 Amur 2016 25 MVA 2d T 25 MVA)

SS 220 kV Khekhtsir (replacement of AT 49 Khabarovsk 2014.2016 2x125 MVA 125.0 63 MVA +125 MVA)

SS 220 kV Lesozavodsk (replacement of T-1, T-2 20 MVA with 2x40 MVA with 50 Primorsk 2015 2x40 MVA reconstruction of protection of SWYD 220 kV)

Facilities of renovation with increasing of transformer capacity 1,317.6 1,282.0 175.0

220 kV 0.0 0.0 0.0

220 kV 1,317.6 1,282.0 175.0

284 Russian Energy Systems Market Research 부록 1

Physical quantities Physical quantities Physical quantities Physical quantities Physical quantities

2015 2016 2017 2018 2019

km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar km MVA Mvar

45.5

869.2

126.0 40.0

250.0 40.0

700.0

126.0

0.0 80.0 0.0 0.0 150.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

0.0 80.0 0.0 0.0 150.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0

25.0

125.0

80.0

2,242.7 977.0 80.0 472.2 1,228.0 0.0 452.4 0.0 360.0 733.4 276.0 0.0 997.0 1,400.0 180.0

0.0 0.0 0.0 0.0 0.0 0.0 450.0 0.0 360.0 0.0 0.0 0.0 280.0 0.0 180.0

2,242.7 977.0 80.0 472.2 1,228.0 0.0 2.4 0.0 0.0 733.4 276.0 0.0 717.0 1,400.0 0.0

한국전기산업연구원 285 러시아 에너지시스템 시장 현황

Technical characteristics Physical quantities Year of the of the project Power facility № Name of the project system commission- OL, km total ing SS, MVA km MVA Mvar (Mvar) OL 220 kV Neryungrinskaya SDPP — Nizhny Kuranakh — Tommot — Maiya with SS 220 kV Tommot and SS 220 kV 275 km 0.0 0.0 0.0 Maiya 1st stage — OL 220 kV Neryungrinskaya SDPP — Nizhny Kuranakh (2d OL) (placed in commission)

2d stage 2d chain of OL 220 kV — 45.5 km 45.5 0.0 0.0 Nizhny Kuranakh — Tommol 45 Yakutia 2015 and double-circuit OL 220 kV Tommot — 2x434.6 km 869.2 0.0 0.0 Maiya

2x63 MVA, with SS 220 kV Tommot 2xSR 20 0.0 126.0 40.0 Mvar

2x125 MVA, and SS 220 kV Maiya 2xSR 20 0.0 250.0 40.0 Mvar

Two one-circuit OL 220 kV Maiya — 2x350 km 700.0 0.0 0.0 Khandyga 46 Yakutia 2018

with SS 220 kV Khandyga 2x63 MVA 0.0 126.0 0.0

OL 220 kV Mirny — Suntar — Nyurba 161 km 161.0 0.0 0.0 47 Yakutia 2014 with SS 220 kV Nyurba 1x63 MVA 0.0 63.0 0.0

Facilities of renovation with increasing of transformer capacity 0.0 355.0 0.0

220 kV 0.0 355.0 0.0

SS 220 kV Klyuchevaya (installation of the 48 Amur 2016 25 MVA 0.0 25.0 0.0 2d T 25 MVA)

SS 220 kV Khekhtsir (replacement of AT 49 Khabarovsk 2014.2016 2x125 MVA 0.0 250.0 0.0 63 MVA +125 MVA)

SS 220 kV Lesozavodsk (replacement of T-1, T-2 20 MVA with 2x40 MVA with 50 Primorsk 2015 2x40 MVA 0.0 80.0 0.0 reconstruction of protection of SWYD 220 kV)

Facilities of renovation with increasing of transformer capacity 6,215.3 5,163.0 795.0

220 kV 730.0 0.0 540.0

220 kV 5,485.3 5,163.0 255.0

286 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT)

Total cost of 2014 2015 2016 2017 construction

mln RUB mln RUB mln RUB mln RUB mln RUB

19,267.4 2,856.9 3,592.2 996.6 0.0

0.00.00.00.00.0

0.00.00.00.00.0

0.00.00.00.00.0

0.00.00.00.00.0

17,044.0 0.0 0.0 4,606.0 4,914.0

0.00.00.00.00.0

3,768.0 2,503.0 0.0 0.0 0.0

0.00.00.00.00.0

1,206.0 374.4 258.9 292.0 0.0

1,206.0 374.4 258.9 292.0 0.0

330.0 99.1 95.0 67.0 0.0

526.0 123.7 45.0 225.0 0.0

350.0 151.6 118.9 0.0 0.0

194,836.3 24,645.6 33,289.7 25,154.5 24,488.5

45,074.0 150.0 5,866.0 6,141.0 13,260.0

149,762.3 24,495.6 27,423.7 19,013.5 11,228.5

한국전기산업연구원 287 러시아 에너지시스템 시장 현황

Technical Capital investments characteristics (money of the day, Year of the of the project including VAT) Power facility № Name of the project system commission- OL, km 2018 ing SS, MVA mln RUB (Mvar) OL 220 kV Neryungrinskaya SDPP — Nizhny Kuranakh — Tommot — Maiya with SS 220 kV Tommot and SS 220 kV 275 km Maiya 1st stage — OL 220 kV Neryungrinskaya SDPP — Nizhny Kuranakh (2d OL) (placed in commission)

2d stage 2d chain of OL 220 kV — 45.5 km Nizhny Kuranakh — Tommol 45 Yakutia 2015 and double-circuit OL 220 kV Tommot — 2x434.6 km Maiya

2x63 MVA, with SS 220 kV Tommot 2xSR 20 Mvar

2x125 MVA, and SS 220 kV Maiya 2xSR 20 Mvar

Two one-circuit OL 220 kV Maiya — 2x350 km 46 Khandyga Yakutia 2018 with SS 220 kV Khandyga 2x63 MVA

OL 220 kV Mirny — Suntar — Nyurba 161 km 47 Yakutia 2014 with SS 220 kV Nyurba 1x63 MVA

Facilities of renovation with increasing of transformer capacity

220 kV SS 220 kV Klyuchevaya (installation of the 48 Amur 2016 25 MVA 2d T 25 MVA)

SS 220 kV Khekhtsir (replacement of AT 49 Khabarovsk 2014.2016 2x125 MVA 63 MVA +125 MVA)

SS 220 kV Lesozavodsk (replacement of T-1, T-2 20 MVA with 2x40 MVA with 50 Primorsk 2015 2x40 MVA reconstruction of protection of SWYD 220 kV)

Facilities of renovation with increasing of transformer capacity

220 kV

220 kV

Comment. Equipment that sited in the territory of electric power plants does not included In the cost of facilities.

288 Russian Energy Systems Market Research 부록 1

Capital investments (money of the day, including VAT) Stage of the project (C — Company responsible for the construction, P — project project implementation 2019 total development)

mln RUB mln RUB

0.0 7,445.7

0.0 0.0 JSC «FGC UES» C 0.0 0.0

0.0 0.0

0.0 0.0

0.0 17,044.0 Investor 0.0 0.0

0.0 2,503.0 Investor P 0.0 0.0

0.0 925.3

0.0 925.3

0.0 261.1 JSC «FGC UES»

0.0 393.7 JSC «FGC UES»

0.0 270.5 JSC «FGC UES»

18,313.4 151,368.1

5,453.0 36,123.0

12,860.4 115,245.1

한국전기산업연구원 289 러시아 에너지시스템 시장 현황

□ Abbreviations

AT autotransformer autotransformer

CDSS central distribution substation central distribution substation

CHPP Combined Heat and Power Plant Combined Heat and Power Plant

CL cable power lines cable power lines

CSR controlled shunt reactor controlled shunt reactor

DU distribution unit distribution unit

DС direct current

HPP Hydro Power Plant Hydro Power Plant

IOBS intermediate oil booster station intermediate oil booster station

MOBS main oil booster station main oil booster station

NPP Nuclear Power Plant Nuclear Power Plant

OBS oil booster station oil booster station

OL overhead transmission lines overhead transmission lines

PLT power transmission line power transmission line

PSPP Pump-storage Power Plant Pump-storage Power Plant

RPCS reactive power compensation system reactive power compensation system

SCB static capacitor bank static capacitor bank

SCD series compensation device series compensation device

SDPP State District Power Plan State District Power Plan

SP switching point switching point

SR shunt reactor

SRPC static reactive power compensator static reactive power compensator

SS electric power substantion electric power substantion

SWYD switchyard

T transformer

TPP Thermal Power Plant Thermal Power Plant

TSS traction substation traction substation

UPS Unified Power System Unified Power System

290 Russian Energy Systems Market Research 부록 2

[부록 2] 220kV 미만의 파워그리드 개발

Total Subject of the Voltage Total transformer Comment Russian Federation level, kV length, km capacity, MVA UPS of North-West 110 542.54 1499.4 Arkhangelsk Oblast - 35 60 138.4 110 156.17 1140 Kaliningrad Oblast - 10-0.4 370 0 110 49.8 158 Republic of Karelia 35 87.59 53.5 - 10-0.4 89.76 19.41 Komi Republic 110 30.268 64 - Saint Petersburg 110 368.9 4944 -

Murmansk Oblast 110 901.2 783 Summary data including power grids 150 kV Novgorod Oblast 110 105 243.6 -

Ups of Center In the S&PD there are no summary data Belgorod Oblast - - - on the development of power grid below 220 kV Bryansk Oblast 110 144.5 613.6 - Vladimir Oblast 10-0.4 99.937 0 - 110 156.75 475.6 Vologda Oblast - 35 123.1 137.4 110 0 406 Voronezh Oblast - 35 0 50 110 90.42 112 Ivanovo Oblast 35 10.96 0 - 10-0.4 1571.7 0 Kaluga Oblast 110 66.5 238 - Kostroma Oblast 110 0 221 - 110 436.3 502.2 Kursk Oblast 35 131.6 0 - 10-0.4 339.94 0 110 64.42 528 Lipetsk Oblast - 10-0.4 0 0 110 324.68 0 Moscow 35 0 0 - 10-0.4 947.4 0 110 971.85 6210.6 Moscow Oblast - 35 13.1 360.2 110 366 346 Oryol Oblast - 35 147 13 110 115.8 762.5 Ryazan Oblast 35 37.1 48.1 - 10-0.4 263.5 28.3 110 211 766.3 Smolensk Oblast 35 and - below 1272.16 69.53 Tambov Oblast 110 14 642.9 -

한국전기산업연구원 291 러시아 에너지시스템 시장 현황

Total Subject of the Voltage Total transformer Comment Russian Federation level, kV length, km capacity, MVA 10-0.4 826 0 110 172 595 Tver Oblast - 35 111 390 110 273.9 390 Tula Oblast 35 48.9 30 - 10-0.4 2980.391 56.935 110 105.4 400.8 Yaroslavl Oblast 35 34.6 40.6 - 10-0.4 0 0 UPS of Mid-Volga 110 229.1 0 Mari El Republic - 35 77.1 0 In the S&PD there are no summary data Republic of - - - on the development of power grid Mordovia below 220 kV Nizhny Novgorod 110 64 1162 - Oblast 35 12.2 124 Penza Oblast 110 314.9 6.3 - Saratov Oblast 110 23 377 - In the S&PD there is only the list of Republic of - - - projects without physical quantities and Tatarstan capital investments Ulyanovsk Oblast 110 10.1 142 - UPS of South 110 70.1 72 Republic of Adygea - 35 0 90.7 110 68.5 376.37 Astrakhan Oblast - 10-0.4 213.64 0 Volgograd Oblast - - - The S&PD is not approved In the S&PD there are no summary data Republic of - - - on the development of power grid Dagestan below 220 kV Republic of Kalmykia 110 90.44 52.5 - 110 1315.81 4470 Krasnodar Krai - 35 184.7 544.7 110 133.1 587.21 Rostov Oblast - 35 31.68 0 Republic of North Ossetia-Alania 110 316.12 319 - 110 456.39 304.66 Stavropol Krai - 35 35 33.44 110 376.2 779 Chechen Republic - 35 135.8 96.1 UPS of Urals 110 26.22 200 Kirov Oblast - 35 1.71 40 Kurgan Oblast - - - - Orenburg Oblast 110 226.02 376.8 - 110 249.1 682 Perm Krai - 35 62.6 104 In the S&PD there are no summary data Republic of -- -on the development of power grid Bashkortostan below 220 kV

292 Russian Energy Systems Market Research 부록 2

Total Subject of the Voltage Total transformer Comment Russian Federation level, kV length, km capacity, MVA Sverdlovsk Oblast 110 113.1 612 - Tyumen Oblast 110 36.4 261.2 - Udmurt Republic 110 107.6 338 - 110 207.4 450 Khanty–Mansi Autonomous Okrug - 35 166.48 125.2 – Yugra In the S&PD there are no summary data Chelyabinsk Oblast - - - on the development of power grid below 220 kV Yamalo-Nenets Autonomous Okrug 110 146.8 130 - UPS of Siberia Altai Krai 110 482.8 509 - In the S&PD there are no summary data Zabaykalsky Krai - - - on the development of power grid below 220 kV 110 1319.5 972.1 Irkutsk Oblast 35 1537.46 812.2 - 10-0.4 731.47 1446.75 Kemerovo Oblast 110 887.38 799 - 110 512.326 2330.6 Novosibirsk Oblast - 35 316.55 40.4 In the S&PD there are no summary data Omsk Oblast - - - on the development of power grid below 220 kV 110 - - Altai Republic - 10-0.4 2000 0 110 373 0 Republic of Buryatia 35 4 0 - 10-0.4 292 0 110 0 40.1 Republic of Khakassia 35 26.5 0 - 10-0.4 181.2 26.9 110 2.7 62.16 Tomsk Oblast 35 39.4 17.3 - 10-0.4 197.532 2966.5 UPS of East 110 19 130 Khabarovsk Krai - 35 0 50 110 37.64 0 Amur Krai - 35 26.3 20 In the S&PD there are no summary data Sakha (Yakutia) -- -on the development of power grid Republic below 220 kV

한국전기산업연구원 293 러시아 에너지시스템 시장 현황

[부록 3] 전기에너지 시스템 분야에서의 입찰

Status of the № Title of the project Location of the project site Orderer project

1 SS 330 kV Kislovodsk with Stavropol Krai Branchof «CECM UES» Call for bids approach OL 330 kV — CECM of South

North-East branch of 2 Reconstruction of OL 0,4 kV in Koloyar Saratov region JSC «IDGC of Volga» Call for bids – «Saratovskie RS»

294 Russian Energy Systems Market Research 부록 3

Purchasing Requirements to contractors Parameters of selecting a contractor procedure Positive experience of work on objects of 1. Civil legal capacity. FGCUES. 2. Should not be in the process of Conformance of performed works to the liquidation, bankruptcy, etc. specific to the organization. 3. Conformance to qualifying criteria for Conformance of organization to the financial stability. documentation's requirements. 4. Not be included in the register of unfair suppliers. Offered price. 5. Must have the necessary documents allowing for the perform of works under the contract. 6. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities: — must have for the last 3 years at least 1 similar completed contract; — must have safety management system; — must have sufficient amount of own or leased Open materials and equipment. tender 7. Must have own or attract qualified human resources. 8. Must have the necessary powers for the supply of equipment and confirmation of branded warranty from manufacturers. 9. Absence of a negative operating experience and claims of the supplied products. 10. Offered equipment and materials must meet all the requirements of FGC UES, including the need to pass the certification. 11. Civil liability during construction works must be insured.

1. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities. Must have the experience of performing similar works not least 3 years and have for the last 3 years at least 1 similar completed contract.

Open 2. Must have civil legal capacity. tender n/a 3. Should not be in the process of liquidation, bankruptcy, etc.

4. Must not be in arrears on taxes, fees and other mandatory payments.

5. Not be included in the register of unfair suppliers.

한국전기산업연구원 295 러시아 에너지시스템 시장 현황

Date of Date of bid opening Date of № Title of the project Date of beginning consideration procedure making up of proposals

SS 330 kV Kislovodsk 1 with approach OL 330 12-06-13 16:32 01.16.2014 11:00:00 n/a n/a kV

Reconstruction of OL 02.17.2014 2 0,4 kV in Koloyar 12.10.2013 09:31:00 01.17.2014 10:00:00 10:00:00 n/a

296 Russian Energy Systems Market Research 부록 3

Contract price, Possibility of foreign Construction Schedule of the project Way of funding RUB (including (in particular Korean) period VAT) companies’ participation

Of the date of contract signing till December 2014 (testing and putting into Company must be Commissioning — 100% extra operation of the registered in the December 2014 budgetary funds short-circuit 388,400,000.00 territory of the Russian point of melting Federation. ice (ZKRP) must be completed no later than 09.30.2014)

04.01.2014 Commissioning — — December 2014 n/a 12.31.2014 10,968,736.21 n/a

한국전기산업연구원 297 러시아 에너지시스템 시장 현황

Contact person № Title of the project URL of tender Name Tel E-mail

SS 330 kV Kislovodsk http://www.tzselekt 1 with approach OL 330 Semenov Valeriy (495) 231-11-72 [email protected] ra.ru/tenderl/2121 kV Viktorovich # 24-82 4202/

http://www.b2b-mr Reconstruction of OL TsvetkovVladimir vn.mazilkina@mr sk.ru/market/view_ 2 0,4 kV in Koloyar Nikolaevich (8452)30-27-30 sk-volgi.ru tender.html?id=38 462

298 Russian Energy Systems Market Research 부록 3

Status of the № Title of the project Location of the project site Orderer project

SS 110 kV Kartaly-rayonnaya (replacement static capacitor Branch of JSC «FGC 3 banks, transformer arresters, Chelyabinsk region UES» - Backbone Call for bids voltage transformers 110 kV) power grids of Urals

한국전기산업연구원 299 러시아 에너지시스템 시장 현황

Purchasing Parameters of selecting № Title of the project Requirements to contractors procedure a contractor

Positive experience of 1. Civil legal capacity. work on objects of FGCUES.

Conformance of 2. Should not be in the performed works to the process of liquidation, specific to the bankruptcy, etc. organization.

Conformance of 3. Conformance to qualifying organization to the criteria for financial documentation's stability. requirements.

4. Not be included in the register of unfair suppliers. Offered price.

5. Must have the necessary documents allowing for the perform of works under the contract.

6. Must possess the necessary professional knowledge, management competence and reputation, have resourse SS 110 kV capabilities: — must have Kartaly-rayonnaya for the last 3 years at (replacement static least 1 similar completed 3 capacitor banks, Open tender contract; — must have transformer arresters, safety management voltage transformers system; — must have 110 kV) sufficient amount of own or leased materials and equipment.

7. Must have own or attract qualified human resources.

8. Must have the necessary powers for the supply of equipment and confirmation of branded warranty from manufacturers.

9. Absence of a negative operating experience and claims of the supplied products.

10. Offered equipment and materials must meet all the requirements of FGC UES, including the need to pass the certification.

11. Civil liability during construction works must be insured.

300 Russian Energy Systems Market Research 부록 3

Date of bid Date of Date of Date of making Schedule of the opening consideration of Way of funding beginning up project procedure proposals

01.30.2014-11.3 0.2014,including: -correctingofdeta ileddocumentatio n— no later than 03.30.2014; -deliveryofmateri 12.12.2013 01.13.2014 alsandequipment n/a n/a —nolaterthan05. n/a 09:40:00 12:00:00 30.2014; -constructionandi nstallationworks —nolaterthan09. 30.2014; -accomplishment — no later than 10.30.2014.

한국전기산업연구원 301 러시아 에너지시스템 시장 현황

Possibility of foreign Contract price, RUB № Title of the project Construction period (in particular Korean) (including VAT) companies’ participation

SS 110 kV Kartaly-rayonnaya (replacement static capacitor 01.30.2014 — 3 banks, transformer arresters, 11.30.2014 56,537,710.00 n/a voltage transformers 110 kV)

302 Russian Energy Systems Market Research 부록 3

Contact person URL of tender Name Tel E-mail

(343) PervitskikhOlgaAleks 205-01-01,(343)205- [email protected] http://www.tzselektra.ru/tenderl/ androvna 05-50(#101) 21319297/

한국전기산업연구원 303 러시아 에너지시스템 시장 현황

Status of the № Title of the project Location of the project site Orderer project

Approach OL 4 Tynda-Skovorodino at SS 220 Amur region Branchof «CECM UES» Call for bids kV Skovorodino — CECM of East

OL 220 kV Blagoveschenskaya-Zuravli(Ta Branchof «CECM UES» 5 Amur region Call for bids mbovka)-Varvarovka with SS — CECM of East 220 kV Zuravli(Tambovka)

304 Russian Energy Systems Market Research 부록 3

Purchasing Requirements to contractors Parameters of selecting a contractor procedure Positive experience of work on objects of 1. Civil legal capacity. FGCUES. 2. Should not be in the process of liquidation, Conformance of performed works to the bankruptcy, etc. specific to the organization. 3. Conformance to qualifying criteria for financial Conformance of organization to the stability. documentation's requirements. 4. Not be included in the register of unfair suppliers. Offered price. 5. Must have the necessary documents allowing for the perform of works under the contract. 6. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities: — must have for the last 3 years at least 1 similar Open tender completed contract; — must have safety management system; — must have sufficient amount of own or leased materials and equipment. 7. Must have own or attract qualified human resources. 8. Must have the necessary powers for the supply of equipment and confirmation of branded warranty from manufacturers. 9. Absence of a negative operating experience and claims of the supplied products. 10. Offered equipment and materials must meet all the requirements of FGC UES, including the need to pass the certification. 11. Civil liability during construction works must be insured. Positive experience of work on objects of 1. Civil legal capacity. FGCUES. 2. Should not be in the process of liquidation, Conformance of performed works to the bankruptcy, etc. specific to the organization. 3. Conformance to qualifying criteria for financial Conformance of organization to the stability. documentation's requirements. 4. Not be included in the register of unfair suppliers. Offered price. 5. Must have the necessary documents allowing for the perform of works under the contract. 6. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities: — must have for the last 3 years at least 1 similar Open tender completed contract; — must have safety management system; — must have sufficient amount of own or leased materials and equipment. 7. Must have own or attract qualified human resources. 8. Must have the necessary powers for the supply of equipment and confirmation of branded warranty from manufacturers. 9. Absence of a negative operating experience and claims of the supplied products. 10. Offered equipment and materials must meet all the requirements of FGC UES, including the need to pass the certification. 11. Civil liability during construction works must be insured.

한국전기산업연구원 305 러시아 에너지시스템 시장 현황

Date of Date of bid opening Date of № Title of the project Date of beginning consideration procedure making up of proposals

Approach OL 4 Tynda-Skovorodino at 12.11.2013 16:47:00 01.13.2014 11:00:00 n/a n/a SS 220 kV Skovorodino

OL 220 kV Blagoveschenskaya-Zura 5 vli(Tambovka)-Varvarovka 12.11.2013 17:50:00 01.09.2014 14:00:00 n/a n/a with SS 220 kV Zuravli(Tambovka)

306 Russian Energy Systems Market Research 부록 3

Contract Possibility of foreign (in Construction price, RUB Schedule of the project Way of funding particular Korean) period (including companies’ participation VAT)

Of the date of contract Commissioning — n/a signing till 338,025,000. n/a December 2014 December 00 2014

Settingfacilityunderthevolt Of the date age:May2014. of contract n/a signing till 1,328,800,00 n/a Completionofworks:Dece December 0.00 mber2015. 2015

한국전기산업연구원 307 러시아 에너지시스템 시장 현황

Contact person № Title of the project URL of tender Name Tel E-mail

Approach OL Demeshko http://www.tzselektr 4 Tynda-Skovorodino at Natalia (495) 231-11-72 [email protected] a.ru/tenderl/213328 SS 220 kV Skovorodino Anatolievna # 24-17 95/

OL 220 kV Blagoveschenskaya-Zura Shakirova http://www.tzselektr 5 vli(Tambovka)-Varvarovka Yana (495) 231-11-72 [email protected] a.ru/tenderl/213364 with SS 220 kV Aleksandrovna 92/ Zuravli(Tambovka)

308 Russian Energy Systems Market Research 부록 3

Status of the № Title of the project Location of the project site Orderer project

Construction of overhead branch OL 10 kV-6320m Branch of JSC «IDGC 6 from pole №14 of tap №6 Republic of Kalmykia of South» — Call for bids OL 10 kV «12»Bolnitsa» SS «Kalmenergo» 110/35/10 kV «Sovetskaya»

Construction of SWYD cell JSC SC 7 220 kV (SS 220/110/10 kV Sakha (Yakutia) Republic Call for bids «GPP-5») «Yakutskenergo»

한국전기산업연구원 309 러시아 에너지시스템 시장 현황

Purchasing Parameters of № Title of the project Requirements to contractors procedure selecting a contractor 1. Must possess the necessary Construction of overhead professional knowledge, management branch OL 10 kV-6320m competence and reputation, have Open 6 from pole 14 of tap 6 resourse capabilities. n/a № № tender OL 10 kV «12»Bolnitsa» SS 2. Must have civil legal capacity. 110/35/10 kV «Sovetskaya» 3. Should not be in the process of liquidation, bankruptcy, etc. 1. Must possess the necessary professional knowledge, management Price competence and reputation, have resourse capabilities. 2. Possession of a certificate of admission to the kinds of works that Nonprice criteria: affect the safety of capital construction in the performance of construction. 1. Production and technical characteristics — 40%: 3. Must have the necessary documents — technological, allowing for the perform of works organizational and under the contract. technical proposals for the performance of works — 80%, warranty — 20%. 2. Quality of equipment 4. Must have civil legal capacity. — 20%. 3. Qualification of contractor — 40%: 3.1. Volume and successful experience in similar contracts (including Construction of SWYD cell Open experience with 7 220 kV (SS 220/110/10 kV tender «Yakutslenergo») — «GPP-5») 30%. 3.2. Qualification of managers and 5. Should not be in the process of specialists — 10%. liquidation, bankruptcy, etc. 3.3. Material and technical base — 10%. 3.4. Availability of business relations with equipment producers — 30%. 3.5. Business reputation — 10%. 3.6. Absence of a contractor in the register of unfair suppliers — 10%. 6. Not be included in the register of unfair suppliers. 7. Must not be affiliated with one or more other participants of tender. 8. If the contract price is more then 500 ths RUB (without VAT) and contract term is more than 3 months, attracted organizations must not have characteristics of «one-day firms» (letter of commitment must be submitted).

310 Russian Energy Systems Market Research 부록 3

Date of Date of bid opening Date of Schedule of Way of Date of beginning consideration procedure making up the project funding of proposals

Terms of delivery: 02.14.2014 12.13.2013 09:45 01.14.2014 10:00:00 n/a n/a 07.01.2014 10:00 — 07.30.2014

Of the date of contract 01.28.2014 02.14.2014 signing till 12.13.2013 12:10:00 01.14.2014 07:00 Profit 09:00:00 15:00 the III quarter 2014

한국전기산업연구원 311 러시아 에너지시스템 시장 현황

Contract price, RUB Possibility of foreign (in particular Korean) № Title of the project (including VAT) companies’ participation

In case of registration outside of the Russian Federation, Participant is required to submit all Construction of overhead the documents stated in the tender branch OL 10 kV-6320m documentation. If in accordance with the laws from pole №14 of tap of the Participant's country, submitting of any 6 №6 OL 10 kV 9,914,704.12 documents is not possible, Participant must «12»Bolnitsa» SS submit a briefing paper explaining the such 110/35/10 kV reasons, and (as far as possible) the «Sovetskaya» document, similar in content to the required one.

In case of registration outside of the Russian Federation, Participant is required to submit all the documents stated in the tender documentation. If in accordance with the laws Construction of SWYD cell 46,493,970.00 of the Participant's country, submitting of any 7 220 kV (SS 220/110/10 kV (without VAT) documents is not possible, Participant must «GPP-5») submit a briefing paper explaining the such reasons, and (as far as possible) the document, similar in content to the required one.

312 Russian Energy Systems Market Research 부록 3

Contact person URL of tender Name Tel E-mail

Simonova Elena simonovaev@mr http://www.b2b-center.ru/market/view_tender.html?id Vladimirovna (861) 279-87-72 sk-yuga.ru =38518

Sevastyan Vera Sevastyan-VA@r http://www.b2b-center.ru/market/view_tender.html?id Aleksandrovna (4212) 26-44-56 ao-esv.ru =38522

한국전기산업연구원 313 러시아 에너지시스템 시장 현황

Status of the № Title of the project Location of the project site Orderer project

Construction of SS 110/10 Branch of JSC «IDGC 8 Saratov region of Volga» — Call for bids kV «Novy Gorod» «Chuvashenergo»

Branch of JSC «FGC 9 OL 330 kV Grozny-Chiryut Chechen Republic UES» - Backbone Call for bids power grids of South

314 Russian Energy Systems Market Research 부록 3

Parameters of Purchasing Requirements to contractors selecting a procedure contractor 1. Registration at e-commerce site. 2. Must have civil legal capacity. 3. Should not be in the process of liquidation, bankruptcy, etc. 4. Not be included in the register of unfair suppliers. 5. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities: — must have the experience of performing similar works not least 3 years and have for the last 3 years at least 1 similar completed Open tender n/a contract.; — must have for the last 3 years performed similar works in the amount of not less than 50% of the initial contract price; — must have sufficient amount of own or leased materials and equipment; — must have own or attract qualified human resources. 6. Civil liability during construction works must be insured. 7. Must not be in arrears on taxes, fees and other mandatory payments.

8. Not be included in the register of unfair suppliers.

Positive experience of 1. Civil legal capacity. work on objects of FGCUES. Conformance of performed works 2. Should not be in the process of liquidation, bankruptcy, etc. to the specific to the organization. Conformance of organization to the 3. Conformance to qualifying criteria for financial stability. documentation's requirements. 4. Not be included in the register of unfair suppliers. Offered price. 5. Must have the necessary documents allowing for the perform of Open tender works under the contract. 6. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities: — must have for the last 3 years at least 1 similar completed contract; — must have safety management system; — must have sufficient amount of own or leased materials and equipment. 7. Must have own or attract qualified human resources. 8. Must have the necessary powers for the supply of equipment and confirmation of branded warranty from manufacturers. 9. Absence of a negative operating experience and claims of the supplied products. 10. Offered equipment and materials must meet all the requirements of FGC UES, including the need to pass the certification. 11. Civil liability during construction works must be insured.

한국전기산업연구원 315 러시아 에너지시스템 시장 현황

Date of bid Date of Date of Date of making № Title of the project opening consideration of beginning up procedure proposals

Construction of SS 12.13.2013 01.23.2014 02.06.2014 03.20.2014 8 110/10 kV «Novy Gorod» 09:58:00 10:00 10:00:00 10:00:00

9 OL 330 kV Grozny-Chiryut

316 Russian Energy Systems Market Research 부록 3

Contract price, Schedule of the Way of Construction Possibility of foreign (in particular RUB (including project funding period Korean) companies’ participation VAT)

In case of registration outside of the Russian Federation, Participant is required to submit Beginningofworks: all the documents stated in the nolaterthan8workin tender documentation. If in gdaysofthedateofc Terms of accordance with the laws of the ontractsigning.Co n/a delivery: 13,768,499.16 Participant's country, submitting mpletionofworks:n 04.28.2014 — of any documents is not olaterthan10.30.20 10.30.2014 possible, Participant must submit 14. a briefing paper explaining the such reasons, and (as far as possible) the document, similar in content to the required one.

Extrabudgetar Terms of n/a y funds delivery: March 17,607,560.00 n/a — 2014 — June 100% 2015

한국전기산업연구원 317 러시아 에너지시스템 시장 현황

Contact person № URL of tender Name Tel E-mail

TsvetkovVladimirNik vn.mazilkina@mrsk- http://www.b2b-center.ru/market/vie 8 olaevich (8452) 30-27-30 volgi.ru w_tender.html?id=38524

9 Petrov Evgeniy http://www.tzselektra.ru/tenderl/214 Aleksandrovich (87932) 60-918 [email protected] 16680/

318 Russian Energy Systems Market Research 부록 3

Status of the № Title of the project Location of the project site Orderer project

Branch of JSC «FGC 10 OL500kVRostovNPP-Budyon Stavropol Krai UES» - Backbone Call for bids ovsk power grids of South

Reconstruction of OL 10 kV 11 of Khostinskogo RPG Krasnodar Krai JSC «Kubanenergo» Call for bids (regional power grid)

한국전기산업연구원 319 러시아 에너지시스템 시장 현황

Purchasing Parameters of selecting a № Requirements to contractors procedure contractor

Positive experience of work on 1. Civil legal capacity. objects of FGCUES.

2. Should not be in the process of liquidation, Conformance of performed works bankruptcy, etc. to the specific to the organization.

3. Conformance to qualifying criteria for financial stability. Conformance of organization to the documentation's requirements.

4. Not be included in the register of unfair suppliers. Offered price.

5. Must have the necessary documents allowing for the perform of works under the contract.

6. Must possess the necessary professional knowledge, management competence and reputation, have resourse capabilities: — must have for the last 3 years at least 1 similar completed contract; must have 10 Open tender — safety management system; — must have sufficient amount of own or leased materials and equipment.

7. Must have own or attract qualified human resources.

8. Must have the necessary powers for the supply of equipment and confirmation of branded warranty from manufacturers.

9. Absence of a negative operating experience and claims of the supplied products.

10. Offered equipment and materials must meet all the requirements of FGC UES, including the need to pass the certification.

11. Civil liability during construction works must be insured.

1. Possession of a certificate of admission to the kinds of works that affect the safety of capital construction in the performance of construction. Request for proposal n/a 11 (announcement of purchase) 2. Meeting the requirements of the Standard in the field of industrial, environmental safety and labour protection in accordance with the order of «Kubanenergo» from 12.15.2010 №865.

320 Russian Energy Systems Market Research 부록 3

Date of Date of bid opening Date of Date of beginning consideration Schedule of the project procedure making up of proposals

12.19.2013 11:00:00 01.09.2014 11:00:00 n/a n/a n/a

02.03.2014 02.20.2014 12.24.2013 10:54:00 n/a 11:00:00 11:00:00 n/a

한국전기산업연구원 321 러시아 에너지시스템 시장 현황

Possibility of foreign Contract price, RUB № Way of funding Construction period (in particular Korean) (including VAT) companies’ participation

Terms of delivery: 10 Extrabudgetary funds March 2014 — August 10,437,580.00 n/a 2015

Performance time: within 60 days of the 11 n/a date of contract 6,491,430.00 n/a signing.

322 Russian Energy Systems Market Research 부록 3

Contact person URL of tender Name Tel E-mail

Sycheva Angelina http://www.tzselektra.ru/t Pavlovna (87932) 6-09-17 [email protected] enderl/21414559/

http://www.b2b-center.ru/ Borodinova Natalia (861) 212-26-61 [email protected] market/view.html?id=324 Petrovna ktra.ru 219

한국전기산업연구원 323 러시아 에너지시스템 시장 현황

[부록 4] 2014년 FGC UES의 조달 계획

Subdivision Subdivision Subdivision / Number of responsible for responsible for № Facility company-consume purchase the contract issue of disposal r of products execution for purchase OL 220 kV Polunino Liteinaya Branch of «CECM 2100003446/ — 1 0013 with reconstruction of SS 220 kV UES» — CECM of JSC «CECM UES» MES of Center Liteinaya Center Branch of «CECM 2100003446/ 2 0014 SS 330 kV Liski UES» — CECM of JSC «CECM UES» MES of Center Center

2100003446/ Branch of «CECM 3 SS 220 kV Tambovskaya-4 UES» — CECM of JSC «CECM UES» MES of Center 0015 Center

2100003446/ Branch of «CECM 4 SS 220 kV Rostilovo UES» — CECM of JSC «CECM UES» MES of Center 0017 Center 2100003330/ SS 330 kV Tikhvin-Liteinaya MES of 5 0001 (complex reconstruction) North-West JSC «CECM UES» MES of North-West

OL Taksimo — Chara 2d chain — 2100003370/ change-over to 220 kV with 6 0001 enlargement of SWYD 220 kV of JSC «CECM UES» JSC «CECM UES» MES of Siberia SS Chara

OL 500 kV Ust-Kut — 7 2100003370/ Nizhneangarskaya with SS 500 kV JSC «CECM UES» JSC «CECM UES» MES of Siberia 0002 Nizhneangarskaya with approaches of OL 220 kV

2100003370/ Construction of approaches of OL Branch of «CECM Branch of «CECM 8 220 kV Severnaya — Posolskaya UES» — CECM of UES» — CECM of MES of Siberia 0003 to SS 220 kV Tataurovo Siberia Siberia

OL 220 kV Oznachennoe — Shushenskaya ( segment as far as Branch of «CECM 9 2100003370/ SS Oznachennoe-raionnaya-10 km, UES» CECM of JSC «CECM UES» MES of Siberia 0004 and Maiskaya — HPP-Shushenskaya-opornaya-50 Siberia km) SS 220 kV Levoberezhnaya with 2100003370/ approaches of one chain of OL 10 JSC «CECM UES» JSC «CECM UES» MES of Siberia 0008 220 kV Omskaya CHPP-4 — Luzino

11 2100003370/ 0009 SS 220 kV Zhireken. Installation of MES of Siberia MES of Siberia MES of Siberia CSR (controlled shunt reactor) SS 220 kV Petrovsk-Zabaikalskiy. 12 2100003370/ 0010 Installation of CSR (controlled MES of Siberia MES of Siberia MES of Siberia shunt reactor) SS 220 kV Beryezovsky Ugolny Razrez №1. Replacement of valve-type arresters with surge 13 2100003370/ 0018 arrestors. Performance of MES of Siberia MES of Siberia MES of Siberia electromagnetic locking of CSG (closed switchgear)-10 kV. Installation of arc flash protection SS 220 kV Oktyabrskaya. Replacement of measuring voltage transformers. Replacement of 14 2100003370/ 0019 valve-type arresters with surge MES of Siberia MES of Siberia MES of Siberia arrestors. Performance of electromagnetic locking of CSG-10 kV Installation of the 2d AT 500 kV at SS 500 kV Kuzbasskaya with 15 2100003370/ 0026 approach of OL 500 kV and CL JSC «CECM UES» JSC «CECM UES» MES of Siberia 220 kV

OL 500 kV Enisei — Kamala with enlargement of SWYD 500 kV of Branch of «CECM 16 2100003370/ 0027 UES» — CECM of JSC «CECM UES» MES of Siberia SS Enisei and SWYD 500 kV of Siberia SS Kamala

324 Russian Energy Systems Market Research 부록 4

Initial (maximum) price of the contract (price of the lot) (ths RUB, including VAT) Region Scope of the contract Total For the current year

Supplying of equipment, construction and 659,316.7 0.0 installation works, start-up operations

Supplying of equipment, construction and 2,577,130.5 0.0 installation works, start-up operations

Supplying of equipment, construction and 2,755,680.0 0.0 installation works, start-up operations

Supplying of equipment, construction and 2,146,777.1 300,000.0 installation works, start-up operations

Master contract with supplying of equipment, construction and installation works, start-up operations 1,360,000.0 60,000.0

Supplying of equipment, construction and 4,701,844.7 0.0 installation works, start-up operations

Supplying of equipment, construction and 10,023,841.7 0.0 installation works, start-up operations

Supplying of equipment, construction and 183,495.1 0.0 installation works, start-up operations

Supplying of equipment, construction and 961,077.7 0.0 installation works, start-up operations

Supplying of equipment, construction and 2,351,359.2 0.0 installation works, start-up operations

Supplying of equipment, construction and 262,142.0 24,380.0 installation works, start-up operations

Supplying of equipment, construction and 218,448.0 13,730.0 installation works, start-up operations

Project and detailed design, supplying of inventory and equipment, construction and 32,116.0 8,000.0 installation works, start-up operations

Project and detailed design, supplying of inventory and equipment, construction and 28,515.0 7,000.0 installation works, start-up operations

Detailed design, supplying of equipment, construction and installation works, start-up 1,941,747.6 549,835.0 operations

Projectanddetaileddesign 291,262.1 150,000.0

한국전기산업연구원 325 러시아 에너지시스템 시장 현황

Contract conditions Schedule of the purchase procedures Year of the Month of the presenting the presenting the Planned date or Number of № Facility scope of the scope of the period of issuance purchase purchase / issue of purchase / issue of the announcement organizational-ad organizational-ad about the ministrative ministrative purchase documentation documentation OL 220 kV Polunino Liteinaya 2100003446/ — 1 0013 with reconstruction of SS 220 kV 2015 02 2015 03 Liteinaya 2100003446/ 2 SS 330 kV Liski 2015 02 2015 03 0014 2100003446/ 3 SS 220 kV Tambovskaya-4 2015 06 2015 07 0015 2100003446/ 4 0017 SS 220 kV Rostilovo 2014 08 2014 09 2100003330/ SS 330 kV Tikhvin-Liteinaya 5 0001 (complex reconstruction) 2014 11 2014 12

OL Taksimo — Chara 2d chain 2100003370/ — change-over to 220 kV with 6 0001 enlargement of SWYD 220 kV of 2015 03 2015 03 SS Chara

OL 500 kV Ust-Kut — 7 2100003370/ Nizhneangarskaya with SS 500 2015 06 2015 06 0002 kV Nizhneangarskaya with approaches of OL 220 kV Construction of approaches of 2100003370/ OL 220 kV Severnaya — 8 0003 Posolskaya to SS 220 kV 2015 03 2015 03 Tataurovo

OL 220 kV Oznachennoe — Shushenskaya (segment as far as 2100003370/ SS Oznachennoe-raionnaya-10 9 0004 km, and Maiskaya 2015 03 2015 03 HPP-Shushenskaya-opornaya-50 km) SS 220 kV Levoberezhnaya with 10 2100003370/ approaches of one chain of OL 2015 03 2015 03 0008 220 kV Omskaya CHPP-4 — Luzino 2100003370/ SS 220 kV Zhireken. Installation of 11 0009 CSR (controlled shunt reactor) 2014 09 2014 10

2100003370/ SS 220 kV Petrovsk-Zabaikalskiy. 12 Installation of CSR (controlled shunt 2014 09 2014 10 0010 reactor) SS 220 kV Beryezovsky Ugolny Razrez №1. Replacement of 2100003370/ valve-type arresters with surge 13 arrestors. Performance of 2015 01 2015 02 0018 electromagnetic locking of CSG (closed switchgear)-10 kV. Installation of arc flash protection SS 220 kV Oktyabrskaya. Replacement of measuring voltage transformers. Replacement of 14 2100003370/ valve-type arresters with surge 2015 01 2015 02 0019 arrestors. Performance of electromagnetic locking of CSG-10 kV Installation of the 2d AT 500 kV at 2100003370/ SS 500 kV Kuzbasskaya with 15 2014 10 2014 10 0026 approach of OL 500 kV and CL 220 kV

OL 500 kV Enisei — Kamala with 16 2100003370/ enlargement of SWYD 500 kV of 2014 10 2014 10 0027 SS Enisei and SWYD 500 kV of SS Kamala

326 Russian Energy Systems Market Research 부록 4

Contract conditions Schedule of the purchase procedures Year of the Month of the beginning of beginning of Year of the Month of the supplying supplying Year of the Month of the approval of the approval of the products, products, contract execution contract execution final protocol final protocol execution of execution of works, rendering works, rendering of services of services 2015 06 2015 07 2015 08

2015 06 2015 07 2015 08

2015 10 2015 11 2015 12

2014 12 2015 01 2015 02

2015 03 2015 04 2015 04

2015 05 2015 06 2015 06

2015 09 2015 09 2015 10

2015 05 2015 06 2015 06

2015 05 2015 06 2015 06

2015 05 2015 06 2015 06

2014 12 2015 01 2015 02

2014 12 2015 01 2015 02

2015 04 2015 05 2015 05

2015 04 2015 05 2015 05

2014 12 2015 01 2015 01

2014 12 2015 01 2015 01

한국전기산업연구원 327 러시아 에너지시스템 시장 현황

Contract conditions

Number of Schedule of the purchase № Facility Purchase procedure purchase procedures

Term of the contract OL 220 kV Polunino Liteinaya 2100003446/ — 1 0013 with reconstruction of SS 220 kV 2018 06 Open tender Liteinaya 2100003446/ 2 SS 330 kV Liski 2021 06 Open tender 0014 2100003446/ 3 SS 220 kV Tambovskaya-4 2020 06 Open tender 0015 2100003446/ 4 0017 SS 220 kV Rostilovo 2020 09 Open tender 2100003330/ SS 330 kV Tikhvin-Liteinaya 5 0001 (complex reconstruction) 2019 07 Open tender

OL Taksimo — Chara 2d chain 2100003370/ — change-over to 220 kV with 6 0001 enlargement of SWYD 220 kV of 2020 08 Open tender SS Chara

OL 500 kV Ust-Kut — 7 2100003370/ Nizhneangarskaya with SS 500 2016 08 Open tender 0002 kV Nizhneangarskaya with approaches of OL 220 kV Construction of approaches of 2100003370/ OL 220 kV Severnaya — 8 0003 Posolskaya to SS 220 kV 2016 08 Open tender Tataurovo

OL 220 kV Oznachennoe — Shushenskaya ( segment as far as SS 9 2100003370/ Oznachennoe-raionnaya-10 km, 2017 08 Open tender 0004 and Maiskaya HPP-Shushenskaya-opornaya-50 km) SS 220 kV Levoberezhnaya with 2100003370/ approaches of one chain of OL 10 2017 08 Open tender 0008 220 kV Omskaya CHPP-4 — Luzino 2100003370/ SS 220 kV Zhireken. Installation of 11 2017 10 Open tender 0009 CSR (controlled shunt reactor) SS 220 kV Petrovsk-Zabaikalskiy. 12 2100003370/ Installation of CSR (controlled 2017 10 Open tender 0010 shunt reactor) SS 220 kV Beryezovsky Ugolny Razrez №1. Replacement of valve-type arresters with surge 13 2100003370/ arrestors. Performance of 2016 09 Open tender 0018 electromagnetic locking of CSG (closed switchgear)-10 kV. Installation of arc flash protection SS 220 kV Oktyabrskaya. Replacement of measuring voltage transformers. Replacement of 2100003370/ 14 0019 valve-type arresters with surge 2016 09 Open tender arrestors. Performance of electromagnetic locking of CSG-10 kV Installation of the 2d AT 500 kV at 15 2100003370/ SS 500 kV Kuzbasskaya with 2017 10 Open tender 0026 approach of OL 500 kV and CL 220 kV

OL 500 kV Enisei — Kamala with 2100003370/ enlargement of SWYD 500 kV of 16 0027 SS Enisei and SWYD 500 kV of 2017 04 Open tender SS Kamala

328 Russian Energy Systems Market Research 부록 4

Name of ETP (electronic Level of the buying Purchase in electronic form Arranger of the purchase trading platform) committee

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

yes http://www.tzselektra.ru/ JSC «ESSK UES» Buying committee of the executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

yes http://www.tzselektra.ru/ JSC «ESSK UES» Buying committee of the executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

yes http://www.tzselektra.ru/ JSC «ESSK UES» Buying committee of the branch

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» branch

yes http://www.tzselektra.ru/ JSC «ESSK UES» Buying committee of the executive apparatus

Buying committee of the yes http://www.tzselektra.ru/ JSC «ESSK UES» executive apparatus

한국전기산업연구원 329 러시아 에너지시스템 시장 현황 - KOTRA 자료 14－016 -

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