中國的發電市場報告:2012-2021年

中國的發電市場報告:2012-2021年 是由出版商John Loffman Limited在2011年11月所出版的。 這份英文市場調查報告書包含207 Pages 價格從美金4651起跳。

簡介

本報告提供中國的發電市場現況與展望調查分析，全球及中國的能源需求·能源消費量的轉變，全球及中國的能源供給上的安全保障相關政策，中國的發電市場結構，設備發電容量，供電系統，主要的相關企業簡介，主要發電廠的相關案例研究，設備發電容量及投資額預測(∼2021年:技術區分·各元件類型)等彙整資料，為您概述為以下內容。

第1章 摘要整理·總論

• 本報告焦點
• 中國的電力市場:簡介
• 宏觀因素·影響因素
• 供應鏈上的課題與市場機會
• 外國投資的機會
• 中國的發電市場
• 總論

第2章 宏觀因素

• 一次能源·電力的需求與供給·影響因素
• 能源的需求與供給:不同燃料類型
• 能源價格
• 氣候變動的影響因素
• 能源供給的安全保障和相關政策:全球·中國

第3章 中國的發電市場:概要

• 中國電子產業過程與發展
• 政府的電力市場相關的法規當局
• 目前市場結構
• 中國的設備發電容量:不同燃料類型
• 中國的設備發電容量:不同擁有者型態
• 綠色能源政策
• 二氧化碳捕獲與封存技術(CCS)的發展
• 老舊的發電廠和相關政策的廢止
• 中國的供電系統
• 電力的需求與供給的展望:長期投資的必要性

第4章 供應鏈概要

• 供應鏈上的法規
• 主要企業(中國企業·國際企業)

第5章 主要企業簡介

• 大型公共事業公司
• 中堅公共事業企業
• 主要設備製造商
• 其他的設備製造商
• 大型風力發電機製造商
• 風力發電機製造商
• 大型太陽能PV製造商

第7章 相關案例研究

• 三峽水庫水力發電廠
• 前灣(Qianwan)LNG CCGT發電廠
• rin'ao 核能發電廠等

第8章 有潛力的工程企劃

• 煤炭發電企劃
• 天然氣發電企劃
• 核能發電企劃
• 水力發電企劃
• 抽蓄水力發電企劃
• 境內風力發電企劃
• 海上風力發電企劃
• 太陽能PV發電企劃
• 生質能發電企劃

第9章 市場預測

• 簡介
• 預測流程
• 預測模式·前提條件
• 價格設定次序
• 電力消耗量·設備發電容量預測:2012-2026年
• 中國的發電整體市場預測:2012-2021年(基本案例)
• 煤炭發電市場預測:2012-2021年(基本案例)
• 天然氣發電市場預測:2012-2021年(基本案例)
• 核能發電市場預測:2012-2021年(基本案例)
• 水力發電市場預測:2012-2021年(基本案例)
• 境內風力發電市場預測:2012-2021年(基本案例)
• 海上風力發電市場預測:2012-2021年(基本案例)
• 太陽能PV發電市場預測:2012-2021年(基本案例)
• 太陽能發電市場預測:2012-2021年(基本案例)
• 生質能發電市場預測:2012-2021年(基本案例)
• 波浪發電·潮汐發電市場預測:2012-2021年(基本案例)
• 其他技術的發電市場預測:2012-2021年(基本案例)

第10章 附錄

圖表

目錄

In-Depth Study

The China Power Generation Market Report is an independent and uniquely detailed insight into the world's largest and fastest growing power generation market. The first published report of its kind, it provides complete market coverage, overviews and analysis of market developments, dynamics, project economics and opportunities within all major power technology supply chains in China over the next 10 years (2012-2021).

Providing detailed sector-by-sector power industry analysis that fully considers the affects of macroeconomic drivers, marketspecific issues specific dynamics and policy issues, the report is an essential and rich source of information for decision-makers currently involved or planning involvement in the China power generation sector - especially those working in contracting and equipment supply industries, financial institutions and government departments.

Proprietary Data

The report's forecasts are based on a comprehensive in-house projects database that includes over 2,600 projects that are currently at various stages of development (i.e. under construction, planned, proposed etc.), totalling almost 1,250GW of capacity - providing readers with the confidence to utilise the report's forecasts and findings to support key business growth strategies.

Market Opportunities

The report highlights and analyses current weaknesses and constraints in supply chains and identifies opportunities for technology providers, particularly foreign-based companies looking to enter or expand operations in the China power market.

Unique Forecast Breakdowns

The report's in depth forecasts for the period report s in-2012 to 2021 are presented by capacity and capital expenditure (capex) breakdowns for coal, gas, nuclear, hydro, onshore and offshore wind, solar PV, solar thermal, biomass and wave & tidal markets.

The capex for each sector is uniquely segmented, in detail, into plant equipment items - for example, ranging from turbines, generators and boilers to fans, pumps, heat exchangers and instrumentation and control systems for thermal power plants; and from towers, blades and nacelle covers to gearboxes, generators and cooling systems for wind power projects.

Adrian John

Author & Market Modelling

Adrian has extensive experience within the energy industry, in particular power and oil & gas markets. He has conducted many commercial due diligence studies for investment banks and private equity firms, as well as carried out commissioned bespoke research projects for clients in power and oil & gas sectors. This has included many geographic areas worldwide, in upstream, midstream and downstream sectors. He has particular experience of strategic analysis of power, oil & gas, and offshore and marine vessel markets.

John Loffman Limited is an independent employee-owned energy business advisory company specialising in the provision of business strategy, commercial & market due diligence, transaction support, and bespoke research & analysis services for global energy markets. Focusing on power and oil & gas sectors, the company has extensive experience in geographic areas worldwide working on upstream, midstream, and downstream related projects. Additionally, the company produces published market studies and databases available for purchase.

The information on power projects and prospects was taken from our databases on 1st November 2011. Data given elsewhere in the text are drawn from a wide range of publications. Where appropriate, the relevant source has been cited. This information has been supplemented by our own contacts with operators, contractors and suppliers.

1. Executive Summary & Conclusions

• 1.1. Focus and Coverage of this Report
• 1.2. China Power Market Introduction
• 1.3. Macro Factors & Drivers
• 1.4. Supply Chain Issues and Opportunities
• 1.5. Opportunities for Foreign Investment
• 1.6. The China Power Generation Market
• 1.7. Conclusions

2. Macro Factors

• 2.1. Primary Energy & Electricity Supply-Demand and Drivers
• 2.2. Energy Supply-Demand by Fuel Type
• 2.3. Energy Prices
• 2.4. Climate Change Drivers
• 2.5. Energy Supply Security and Related Policy in China & Globally

3. China Power Generation Market Overview

• 3.1. China Power Industry History and Development
• 3.2. Government Power Market Regulatory Bodies
• 3.3. Current Market Structure
• 3.4. China Capacity - Development of Capacity by Fuel Type
• 3.5. China Capacity by Ownership
• 3.6. Green Energy Policy - China's Commitments & Ambitions
• 3.7. Carbon Capture & Storage (CCS) Development
• 3.8. Decommissioning of Aging Plant & Related Policy
• 3.9. The China Transmission System - Overview & Constraints
• 3.10. Electricity Supply-Demand Outlook - Long-Term Investment Required

4. Project Economics & Foreign Investment

• 4.1. Overview of On-Grid Electricity Tariffs & Policy in China
• 4.2. Tariff Data & Overview by Power Plant Technology Type
• 4.3. Disparity in Coal Prices and On-Grid Tariffs and its Issues
• 4.4. Historic & Future Capital Costs by Technology Type
• 4.5. Levelised Cost of Energy by Technology Type
• 4.6. Key Legislation and Policy Governing Foreign Direct Investment and Participation in the Power Sector in China
• 4.7. 12th 5-Year Plan - Energy and Tax Policy - Opportunities
• 4.8. Trends in Foreign Direct Investment

5. Supply Chain Overview

• 5.1. Supply Chain Constraints
• 5.2. Major Players (China and International)

6. Company Profiles

• 6.1. Major Utility: China Datang Corporation
• 6.2. Major Utility: China Guodian Corporation
• 6.3. Major Utility: China Huadian Corporation
• 6.4. Major Utility: China Huaneng Group
• 6.5. Major Utility: China Power Investment Corporation
• 6.6. Mid-Major Utility: China Guangdong Nuclear Power Group
• 6.7. Mid-Major Utility: China Resources Holdings Company
• 6.8. Mid-Major Utility: Guangdong Yudean Group Company
• 6.9. Mid-Major Utility: Shenhua Group Corporation
• 6.10. Major Equipment Manufacturer: Dongfang Electric Corp.
• 6.11. Major Equipment Manufacturer: Harbin Electric Corp.
• 6.12. Major Equipment Manufacturer: Shanghai Electric Group
• 6.13. Other Equipment Manufacturer: Beizhong Steam Turbine
• 6.14. Other Equipment Manufacturer: CNNC
• 6.15. Major Wind Turbine Manufacturer: Sinovel
• 6.16. Major Wind Turbine Manufacturer: Goldwind
• 6.17. Wind Turbine Manufacturer: Ming Yang Wind Power
• 6.18. Wind Turbine Manufacturer: Zhejiang Windey Engineering
• 6.19. Major Solar PV Manufacturer: Suntech Power Holdings
• 6.20. Major Solar PV Manufacturer: Yingli Green Energy Holding
• 6.21. Major Solar PV Manufacturer: LDK Solar
• 6.22. Major Solar PV Manufacturer: Solarfun Power Holdings
• 6.23. Major Solar PV Manufacturer: Trina Solar
• 6.24. Major Solar PV Manufacturer: ReneSola

7. Case Studies

• 7.1. Three Gorges Hydroelectric Dam
• 7.2. Qianwan LNG CCGT Power Plant
• 7.3. Lingao Nuclear Power Plant
• 7.4. Tianhuangping Pumped Storage Plant
• 7.5. Huaneng Yuhuan Ultra-Supercritical Coal Power Plant
• 7.6. Gansu Onshore Wind Farm
• 7.7. Shanghai East Sea (Donghai) Bridge Offshore Wind Farm
• 7.8. Ordos Solar PV Power Plant

8. Prospective Projects Data

• 8.1. Coal Power Projects (Full Database Available for Purchase)
• 8.2. Gas Power Projects (Full Database Available for Purchase)
• 8.3. Nuclear Power Projects (Full Database Available for Purchase)
• 8.4. Hydro Power Projects (Full Database Available for Purchase)
• 8.5. Pumped Storage Projects (Full Database Available for Purchase)
• 8.6. Onshore Wind Projects (Full Database Available for Purchase)
• 8.7. Offshore Wind Projects (Full Database Available for Purchase)
• 8.8. Solar PV Projects (Full Database Available for Purchase)
• 8.9. Biomass Projects (Full Database Available for Purchase)

9. Market Forecasts

• 9.1. Introduction
• 9.2. The Forecasting Process
• 9.3. Forecast Model & Assumptions
• 9.4. Pricing Procedures
• 9.5. Power Consumption & Capacity Demand Forecasts 2012-2026
• 9.6. Overall China Power Market Forecasts 2012-2021 (Base Case)
• 9.7. Coal Power Market Forecasts 2012-2021 (Base Case)
• 9.8. Gas Power Market Forecasts 2012-2021 (Base Case)
• 9.9. Nuclear Power Market Forecasts 2012-2021 (Base Case)
• 9.10. Hydro Power Market Forecasts 2012-2021 (Base Case)
• 9.11. Onshore Wind Power Market Forecasts 2012-2021 (Base Case)
• 9.12. Offshore Wind Power Market Forecasts 2012-2021 (Base Case)
• 9.13. Solar PV Power Market Forecasts 2012-2021 (Base Case)
• 9.14. Solar Thermal Power Market Forecasts 2012-2021 (Base Case)
• 9.15. Biomass Power Market Forecasts 2012-2021 (Base Case)
• 9.16. Wave & Tidal Power Market Forecasts 2012-2021 (Base Case)
• 9.17. Other Technologies Power Market Forecasts 2012-2021 (Base Case)

10. Appendices

• 10.1. Model Assumptions & Forecast Project Data Quality
• 10.2. High Case Scenario Forecasts
  • Overall China Power Market Forecasts 2012-2021 (High Case)
  • Coal Power Market Forecasts 2012-2021 (High Case)
  • Gas Power Market Forecasts 2012-2021 (High Case)
  • Nuclear Power Market Forecasts 2012-2021 (High Case)
  • Hydro Power Market Forecasts 2012-2021 (High Case)
  • Onshore Wind Power Market Forecasts 2012-2021 (High Case)
  • Offshore Wind Power Market Forecasts 2012-2021 (High Case)
  • Solar PV Power Market Forecasts 2012-2021 (High Case)
  • Solar Thermal Power Market Forecasts 2012-2021 (High Case)
  • Biomass Power Market Forecasts 2012-2021 (High Case)
  • Wave & Tidal Power Market Forecasts 2012-2021 (High Case)
  • Other Technologies Power Market Forecasts 2012-2021 (High Case)
• 10.3. Low Case Scenario Forecasts
  • Overall China Power Market Forecasts 2012-2021 (Low Case)
  • Coal Power Market Forecasts 2012-2021 (Low Case)
  • Gas Power Market Forecasts 2012-2021 (Low Case)
  • Nuclear Power Market Forecasts 2012-2021 (Low Case)
  • Hydro Power Market Forecasts 2012-2021 (Low Case)
  • Onshore Wind Power Market Forecasts 2012-2021 (Low Case)
  • Offshore Wind Power Market Forecasts 2012-2021 (Low Case)
  • Solar PV Power Market Forecasts 2012-2021 (Low Case)
  • Solar Thermal Power Market Forecasts 2012-2021 (Low Case)
  • Biomass Power Market Forecasts 2012-2021 (Low Case)
  • Wave & Tidal Power Market Forecasts 2012-2021 (Low Case)
  • Other Technologies Power Market Forecasts 2012-2021 (Low Case)
• 10.4. Disclaimer

• Figure 1: Total Capacity Additions by Fuel Type 2002-2021
• Figure 2: Total Expenditure by Fuel Type 2002-2021
• Figure 3: Global Primary Energy Demand & China Percentage Thereof 1965-2010
• Figure 4: Global Primary Energy Demand & China Percentage Thereof 1990-2035
• Figure 5: Global & China Primary Energy Demand against Population 1965-2010
• Figure 6: Global & China Primary Energy Demand against Population 1990-2035
• Figure 7: Percentage Change in Global Energy Demand & GDP 1980-2010
• Figure 8: Percentage Change in China Energy Demand & GDP 1980-2010
• Figure 9: Global Electricity Generation & China Percentage Thereof 1990-2010
• Figure 10: Global & China Electricity Generation per Capita 1990-2010
• Figure 11: Global Electricity Generation Forecast by Fuel Type 2007-2035
• Figure 12: Global Oil Production/Consumption & Proven Reserve Years 1980-2010
• Figure 13: China Oil Production/Consumption & Proven Reserve Years 1980-2010
• Figure 14: Global Gas Prod./Consumption & Proven Reserve Years 1980-2010
• Figure 15: China Gas Prod./Consumption & Proven Reserve Years 1980-2010
• Figure 16: Global Coal Prod./Consumption & Proven Reserve Years 1981-2010
• Figure 17: China Coal Prod./Consumption & Proven Reserve Years 1981-2010
• Figure 18: Global Coal Consumption & China Percentage Thereof 1990-2035
• Figure 19: Global Nuclear Power Consumption & China % Thereof 1965-2010
• Figure 20: Global Nuclear Power Consumption Forecast by Region 2007-2035
• Figure 21: Dubai Fateh 32 API Oil Price 1995-Present
• Figure 22: Australia Thermal Coal (12,000-Btu/Pound) Price 1995-Present
• Figure 23: Japan LNG cif Price $/Cubic Metres of Liquid 1995-Present
• Figure 24: Global Uranium (U3O8) Price 1995-Present
• Figure 25: Average Yuan to US Dollar Exchange Rate 2000-Present
• Figure 26: China Primary Energy Production & Consumption 1980-2008
• Figure 27: SPC Restructuring and Asset Allocation in December 2002
• Figure 28: Current Structure of China Electricity Market
• Figure 29: China Power Generation Capacity by Fuel Type 1980-2010
• Figure 30: Percentage Breakdown of China Capacity by Fuel Type 2009
• Figure 31: Percentage Breakdown of China Net Generation by Fuel Type 2009
• Figure 32: Comparison of CO2 Transportation Costs
• Figure 33: Comparison of Electricity Production Costs for Selected CCS Options (2002)
• Figure 34: Regional Power Network Operators in China
• Figure 35: China Electricity Consumption by End-User 1980-2010
• Figure 36: China Capacity and Consumption Targets 2015 and 2020
• Figure 37: Coal Benchmark Tariff in Selected Regions 2005-2010
• Figure 38: Gas CCGT On-Grid Tariffs for Selected Plants 2007-2010
• Figure 39: Onshore Wind On-Grid Tariffs in Selected Regions 2005-2010
• Figure 40: Hydroelectric On-Grid Tariffs for Selected Regions 2006-2010
• Figure 41: Selection of Grid-Connected Solar PV Tariff Rates
• Figure 42: Biomass On-Grid Tariffs in Selected Regions 2007-2010
• Figure 43: Index of Coal Price and Coal Power Tariffs 2004-2010
• Figure 44: Capital Cost of Coal Power Plants by Operational Year 2006-2013
• Figure 45: Capital Cost of 300-330 MW Coal Units by Operational Year 2001-2014
• Figure 46: Capital Cost of 600-660 MW Coal Units by Operational Year 2002-2014
• Figure 47: Capital Cost of 1,000 MW Coal Units by Operational Year 2009-2014
• Figure 48: Capital Cost of Nuclear Units by Operational Year & Development Type 2002-2018
• Figure 49: Capital Cost of Nuclear Units by Operational Year & Reactor Type 2002-2018
• Figure 50: Capital Cost of 350-390 MW CCGT Units by Operational Year 2007-2008
• Figure 51: Capital Cost of Windfarm Developments by Operational Year 2007-2012
• Figure 52: Capital Cost of Hydro Plants by Operational Year 2003-2014
• Figure 53: Capital Cost of Solar PV Plants by Operational Year 2010-2014
• Figure 54: Capital Cost of Biomass Plants by Operational Year 2007-2012
• Figure 55: Levelised Cost of Energy for Different Power Technologies in China
• Figure 56: Foreign Direct Investment Value and No. of Projects 2000-2010
• Figure 57: Origin Country % Share of Non-Financial FDI in China in 2009
• Figure 58: Photo of Three Gorges Dam Construction
• Figure 59: Three Gorges Dam Flood Discharge
• Figure 60: Installation of Turbine Generators
• Figure 61: Photo of Qianwan LNG CCGT Power Plant
• Figure 62: M701F Single-Shaft Gas Turbine
• Figure 63: Map of LNG Supply Distribution
• Figure 64: Installation of Lingao Phase 1 Dome
• Figure 65: Photo of Lingao Phase 2 Construction
• Figure 66: Photo of Tianhuangping Pumped Storage Plant
• Figure 67: Photo of Tianhuangping Upper Reservoir
• Figure 68: Photo of Huaneng Yuhuan Ultra-Supercritical Coal Power Plant
• Figure 69: Steam Turbine
• Figure 70: Photo of Gansu Wind Power Base
• Figure 71: Goldwind Turbines and a Transmission Line at Gansu Wind Farm
• Figure 72: Photo of Doghai Bridge Offshore Wind Farm
• Figure 73: Photo of Installation of the First Sinovel 3 MW Turbine at Doghai Bridge
• Figure 74: Photo of First Solar Inc Solar Power Plant in Nevada, USA
• Figure 75: Photo of Installation Work at a First Solar Inc Project
• Figure 76: Modelling Process Diagram
• Figure 77: China Electricity Consumption Forecast by End-User 2002-2026
• Figure 78: China Electricity Total Capacity Demand Forecast 2002-2026
• Figure 79: Total Cumulative Installed Capacity by Fuel Type 2002-2021
• Figure 80: Total Capacity Additions by Fuel Type 2002-2021
• Figure 81: Total Expenditure by Fuel Type 2002-2021
• Figure 82: Coal Capacity Additions by Unit Size 2002-2021
• Figure 83: Percentage Breakdown of Coal Capacity Additions by Unit Size 2002-2011 and 2012-2021
• Figure 84: Coal Expenditure by Unit Size 2002-2021
• Figure 85: Percentage Breakdown of Coal Capex by Unit Size 2002-2011 and 2012- 2021
• Figure 86: Coal Expenditure Breakdown by Component 2002-2021
• Figure 87: Gas Capacity Additions by Unit Size 2002-2021
• Figure 88: Percentage Breakdown of Gas Capacity Additions by Unit Size 2002-2011 and 2012-2021
• Figure 89: Gas Expenditure by Unit Size 2002-2021
• Figure 90: Percentage Breakdown of Gas Capex by Unit Size 2002-2011 and 2012-2021
• Figure 91: Gas Expenditure Breakdown by Component 2002-2021
• Figure 92: Nuclear Capacity Additions by Type 2002-2021
• Figure 93: Percentage Breakdown of Nuclear Capacity Additions by Type 2002-2011 and 2012-2021
• Figure 94: Nuclear Expenditure by Type 2002-2021
• Figure 95: Percentage Breakdown of Nuclear Capex by Type 2002-2011 and 2012-2021
• Figure 96: Total Nuclear Expenditure Breakdown by Component 2002-2021
• Figure 97: Hydro Capacity Additions by Type 2002-2021
• Figure 98: Percentage Breakdown of Hydro Capacity Additions by Type 2002-2011 and 2012-2021
• Figure 99: Hydro Expenditure by Type 2002-2021
• Figure 100: Percentage Breakdown of Hydro Capex by Type 2002-2011 and 2012-2021
• Figure 101: Conventional Hydro Expenditure Breakdown by Component 2002-2021
• Figure 102: Pumped Storage Expenditure Breakdown by Component 2002-2021
• Figure 103: Onshore Wind Capacity Additions 2002-2021
• Figure 104: Onshore Wind Expenditure Breakdown by Component 2002-2021
• Figure 105: Offshore Wind Capacity Additions 2002-2021
• Figure 106: Offshore Wind Expenditure Breakdown by Component 2002-2021
• Figure 107: Solar PV Capacity Additions 2002-2021
• Figure 108: Solar PV Expenditure Breakdown by Component 2002-2021
• Figure 109: Solar Thermal Capacity Additions 2002-2021
• Figure 110: Solar Thermal Expenditure Breakdown by Component 2002-2021
• Figure 111: Biomass Capacity Additions 2002-2021
• Figure 112: Biomass Expenditure Breakdown by Component 2002-2021
• Figure 113: Wave & Tidal Capacity Additions 2002-2021
• Figure 114: Wave & Tidal Expenditure Breakdown by Component 2002-2021
• Figure 115: Other Technologies Capacity Additions 2002-2021
• Figure 116: Other Technologies Expenditure Breakdown 2002-2021
• Figure 117: Base Case Capacity Additions Forecast Project Data Quality 2002-2021
• Figure 118: Industry Consumption Regression Model v Actual Data
• Figure 119: Agriculture Consumption Regression Model v Actual Data
• Figure 120: Transportation Consumption Regression Model v Actual Data
• Figure 121: Commercial Consumption Regression Model v Actual Data
• Figure 122: Residential Consumption Regression Model v Actual Data
• Figure 123: Construction Consumption Regression Model v Actual Data
• Figure 124: ‘Other’ Consumption Regression Model v Actual Data
• Figure 125: Total Cumulative Installed Capacity by Fuel Type 2002-2021 (High)
• Figure 126: Total Capacity Additions by Fuel Type 2002-2021 (High)
• Figure 127: Total Expenditure by Fuel Type 2002-2021 (High)
• Figure 128: Coal Capacity Additions by Unit Size 2002-2021 (High)
• Figure 129: Coal Expenditure by Unit Size 2002-2021 (High)
• Figure 130: Coal Expenditure Breakdown by Component 2002-2021 (High)
• Figure 131: Gas Capacity Additions by Unit Size 2002-2021 (High)
• Figure 132: Gas Expenditure by Unit Size 2002-2021 (High)
• Figure 133: Gas Expenditure Breakdown by Component 2002-2021 (High)
• Figure 134: Nuclear Capacity Additions by Type 2002-2021 (High)
• Figure 135: Nuclear Expenditure by Type 2002-2021 (High)
• Figure 136: Total Nuclear Expenditure Breakdown by Component 2002-2021 (High)
• Figure 137: Hydro Capacity Additions by Type 2002-2021 (High)
• Figure 138: Hydro Expenditure by Type 2002-2021 (High)
• Figure 139: Conventional Hydro Expenditure Breakdown by Component 2002-2021 (High)
• Figure 140: Pumped Storage Expenditure Breakdown by Component 2002-2021 (High)
• Figure 141: Onshore Wind Capacity Additions 2002-2021 (High)
• Figure 142: Onshore Wind Expenditure Breakdown by Component 2002-2021 (High)
• Figure 143: Offshore Wind Capacity Additions 2002-2021 (High)
• Figure 144: Offshore Wind Expenditure Breakdown by Component 2002-2021 (High)
• Figure 145: Solar PV Capacity Additions 2002-2021 (High)
• Figure 146: Solar PV Expenditure Breakdown by Component 2002-2021 (High)
• Figure 147: Solar Thermal Capacity Additions 2002-2021 (High)
• Figure 148: Solar Thermal Expenditure Breakdown by Component 2002-2021 (High)
• Figure 149: Biomass Capacity Additions 2002-2021 (High)
• Figure 150: Biomass Expenditure Breakdown by Component 2002-2021 (High)
• Figure 151: Wave & Tidal Capacity Additions 2002-2021 (High)
• Figure 152: Wave & Tidal Expenditure Breakdown by Component 2002-2021 (High)
• Figure 153: Other Technologies Capacity Additions 2002-2021 (High)
• Figure 154: Other Technologies Expenditure Breakdown 2002-2021 (High)
• Figure 155: Total Cumulative Installed Capacity by Fuel Type 2002-2021 (Low)
• Figure 156: Total Capacity Additions by Fuel Type 2002-2021 (Low)
• Figure 157: Total Expenditure by Fuel Type 2002-2021 (Low)
• Figure 158: Coal Capacity Additions by Unit Size 2002-2021 (Low)
• Figure 159: Coal Expenditure by Unit Size 2002-2021 (Low)
• Figure 160: Coal Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 161: Gas Capacity Additions by Unit Size 2002-2021 (Low)
• Figure 162: Gas Expenditure by Unit Size 2002-2021 (Low)
• Figure 163: Gas Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 164: Nuclear Capacity Additions by Type 2002-2021 (Low)
• Figure 165: Nuclear Expenditure by Type 2002-2021 (Low)
• Figure 166: Total Nuclear Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 167: Hydro Capacity Additions by Type 2002-2021 (Low)
• Figure 168: Hydro Expenditure by Type 2002-2021 (Low)
• Figure 169: Conventional Hydro Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 170: Pumped Storage Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 171: Onshore Wind Capacity Additions 2002-2021 (Low)
• Figure 172: Onshore Wind Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 173: Offshore Wind Capacity Additions 2002-2021 (Low)
• Figure 174: Offshore Wind Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 175: Solar PV Capacity Additions 2002-2021 (Low)
• Figure 176: Solar PV Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 177: Solar Thermal Capacity Additions 2002-2021 (Low)
• Figure 178: Solar Thermal Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 179: Biomass Capacity Additions 2002-2021 (Low)
• Figure 180: Biomass Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 181: Wave & Tidal Capacity Additions 2002-2021 (Low)
• Figure 182: Wave & Tidal Expenditure Breakdown by Component 2002-2021 (Low)
• Figure 183: Other Technologies Capacity Additions 2002-2021 (Low)
• Figure 184: Other Technologies Expenditure Breakdown 2002-2021 (Low)

• Table 1: Major Owners/Operators of China Power Plants Year-end 2010
• Table 2: Major Owners/Operators of China Coal Power Plants Year-end 2010
• Table 3: Major Owners/Operators of China Nuclear Power Plants Year-end 2010
• Table 4: Major Owners/Operators of China Gas Power Plants Year-end 2010
• Table 5: Major Owners/Operators of China Hydro Power Plants Year-end 2010
• Table 6: Major Owners/Operators of China Wind Power Plants Year-end 2010
• Table 7: Coal Power Plants with Capacity of 150MW-200MW Built Pre-1995
• Table 8: Prospective 1,000MW Coal Power Plant Projects
• Table 9: Prospective 600-660MW Coal Power Plant Projects
• Table 10: Prospective 300-350MW Coal Power Plant Projects
• Table 11: Prospective Gas Power Plant Projects
• Table 12: Prospective Nuclear Power Plant Projects
• Table 13: Prospective Hydro Power Plant Projects
• Table 14: Prospective Pumped Storage Hydro Power Plant Projects
• Table 15: Prospective Onshore Wind Farm Projects
• Table 16: Prospective Offshore Wind Fram Projects
• Table 17: Prospective Solar PV Power Projects
• Table 18: Prospective Biomass Power Plant Projects
• Table 19: Total Cumulative Installed Capacity by Fuel Type 2002-2021
• Table 20: Total Capacity Additions by Fuel Type 2002-2021
• Table 21: Total Expenditure by Fuel Type 2002-2021
• Table 22: Coal Capacity Additions by Unit Size 2002-2021
• Table 23: Coal Expenditure by Unit Size 2002-2021
• Table 24: Coal Expenditure Breakdown by Component 2002-2021
• Table 25: Gas Capacity Additions by Unit Size 2002-2021
• Table 26: Gas Expenditure by Unit Size 2002-2021
• Table 27: Gas Expenditure Breakdown by Component 2002-2021
• Table 28: Nuclear Capacity Additions by Type 2002-2021
• Table 29: Nuclear Expenditure by Type 2002-2021
• Table 30: Total Nuclear Expenditure Breakdown by Component 2002-2021
• Table 31: Hydro Capacity Additions by Type 2002-2021
• Table 32: Hydro Expenditure by Type 2002-2021
• Table 33: Conventional Hydro Expenditure Breakdown by Component 2002-2021
• Table 34: Pumped Storage Expenditure Breakdown by Component 2002-2021
• Table 35: Onshore Wind Capacity Additions 2002-2021
• Table 36: Onshore Wind Expenditure Breakdown by Component 2002-2021
• Table 37: Offshore Wind Capacity Additions 2002-2021
• Table 38: Offshore Wind Expenditure Breakdown by Component 2002-2021
• Table 39: Solar PV Capacity Additions 2002-2021
• Table 40: Solar PV Expenditure Breakdown by Component 2002-2021
• Table 41: Solar Thermal Capacity Additions 2002-2021
• Table 42: Solar Thermal Expenditure Breakdown by Component 2002-2021
• Table 43: Biomass Capacity Additions 2002-2021
• Table 44: Biomass Expenditure Breakdown by Component 2002-2021
• Table 45: Wave & Tidal Capacity Additions 2002-2021
• Table 46: Wave & Tidal Expenditure Breakdown by Component 2002-2021
• Table 47: Other Technologies Capacity Additions 2002-2021
• Table 48: Other Technologies Expenditure Breakdown 2002-2021
• Table 49: GDP % Change Forecasts 2012-2026
• Table 50: China Population Forecast 2012-2026
• Table 51: Oil Price Forecasts 2012-2026
• Table 52: Total Cumulative Installed Capacity by Fuel Type 2002-2021 (High)
• Table 53: Total Capacity Additions by Fuel Type 2002-2021 (High)
• Table 54: Total Expenditure by Fuel Type 2002-2021 (High)
• Table 55: Coal Capacity Additions by Unit Size 2002-2021 (High)
• Table 56: Coal Expenditure by Unit Size 2002-2021 (High)
• Table 57: Coal Expenditure Breakdown by Component 2002-2021 (High)
• Table 58: Gas Capacity Additions by Unit Size 2002-2021 (High)
• Table 59: Gas Expenditure by Unit Size 2002-2021 (High)
• Table 60: Gas Expenditure Breakdown by Component 2002-2021 (High)
• Table 61: Nuclear Capacity Additions by Type 2002-2021 (High)
• Table 62: Nuclear Expenditure by Type 2002-2021 (High)
• Table 63: Total Nuclear Expenditure Breakdown by Component 2002-2021 (High)
• Table 64: Hydro Capacity Additions by Type 2002-2021 (High)
• Table 65: Hydro Expenditure by Type 2002-2021 (High)
• Table 66: Conventional Hydro Expenditure Breakdown by Component 2002-2021 (High)
• Table 67: Pumped Storage Expenditure Breakdown by Component 2002-2021 (High)
• Table 68: Onshore Wind Capacity Additions 2002-2021 (High)
• Table 69: Onshore Wind Expenditure Breakdown by Component 2002-2021 (High)
• Table 70: Offshore Wind Capacity Additions 2002-2021 (High)
• Table 71: Offshore Wind Expenditure Breakdown by Component 2002-2021 (High)
• Table 72: Solar PV Capacity Additions 2002-2021 (High)
• Table 73: Solar PV Expenditure Breakdown by Component 2002-2021 (High)
• Table 74: Solar Thermal Capacity Additions 2002-2021 (High)
• Table 75: Solar Thermal Expenditure Breakdown by Component 2002-2021 (High)
• Table 76: Biomass Capacity Additions 2002-2021 (High)
• Table 77: Biomass Expenditure Breakdown by Component 2002-2021 (High)
• Table 78: Wave & Tidal Capacity Additions 2002-2021 (High)
• Table 79: Wave & Tidal Expenditure Breakdown by Component 2002-2021 (High)
• Table 80: Other Technologies Capacity Additions 2002-2021 (High)
• Table 81: Other Technologies Expenditure Breakdown 2002-2021 (High)
• Table 82: Total Cumulative Installed Capacity by Fuel Type 2002-2021 (Low)
• Table 83: Total Capacity Additions by Fuel Type 2002-2021 (Low)
• Table 84: Total Expenditure by Fuel Type 2002-2021 (Low)
• Table 85: Coal Capacity Additions by Unit Size 2002-2021 (Low)
• Table 86: Coal Expenditure by Unit Size 2002-2021 (Low)
• Table 87: Coal Expenditure Breakdown by Component 2002-2021 (Low)
• Table 88: Gas Capacity Additions by Unit Size 2002-2021 (Low)
• Table 89: Gas Expenditure by Unit Size 2002-2021 (Low)
• Table 90: Gas Expenditure Breakdown by Component 2002-2021 (Low)
• Table 91: Nuclear Capacity Additions by Type 2002-2021 (Low)
• Table 92: Nuclear Expenditure by Type 2002-2021 (Low)
• Table 93: Total Nuclear Expenditure Breakdown by Component 2002-2021 (Low)
• Table 94: Hydro Capacity Additions by Type 2002-2021 (Low)
• Table 95: Hydro Expenditure by Type 2002-2021 (Low)
• Table 96: Conventional Hydro Expenditure Breakdown by Component 2002-2021 (Low)
• Table 97: Pumped Storage Expenditure Breakdown by Component 2002-2021 (Low)
• Table 98: Onshore Wind Capacity Additions 2002-2021 (Low)
• Table 99: Onshore Wind Expenditure Breakdown by Component 2002-2021 (Low)
• Table 100: Offshore Wind Capacity Additions 2002-2021 (Low)
• Table 101: Offshore Wind Expenditure Breakdown by Component 2002-2021 (Low)
• Table 102: Solar PV Capacity Additions 2002-2021 (Low)
• Table 103: Solar PV Expenditure Breakdown by Component 2002-2021 (Low)
• Table 104: Solar Thermal Capacity Additions 2002-2021 (Low)
• Table 105: Solar Thermal Expenditure Breakdown by Component 2002-2021 (Low)
• Table 106: Biomass Capacity Additions 2002-2021 (Low)
• Table 107: Biomass Expenditure Breakdown by Component 2002-2021 (Low)
• Table 108: Wave & Tidal Capacity Additions 2002-2021 (Low)
• Table 109: Wave & Tidal Expenditure Breakdown by Component 2002-2021 (Low)
• Table 110: Other Technologies Capacity Additions 2002-2021 (Low)
• Table 111: Other Technologies Expenditure Breakdown 2002-2021 (Low)

Press Release

中國今後10年將投資1兆2,000億美元擴大設備發電容量

Global Information, Inc.已開始銷售John Loffman Limited所發行的報告書「The China Power Generation Market Report 2012-2021 (中國的發電市場報告:2012-2021年)」

近10年間（從2002年開始到2011年），中國經歷了未曾有過的成長，預測中國的發電市場在2021年之前將面臨許多重要的課題。

因為中國開始不太依賴煤等造成環境污染原因的能源，熱情開發安全且多樣化混合能源之綠色能源計畫。

預估今後10年中國將投資1兆2,000億美元，致力擴大本國的發電容量，採取多樣化的結構。

此1兆2,000億美元中，預計8,440億美元要使用在所謂綠色能源計畫（即核能、水力、風力、太陽光、生物量、波力和潮力能源），設置490千兆瓦特的發電容量。

本報告書關注市場機會潛在性的大小，以及應該因應的許多課題。

過去10年市場重組及法規提供了安定的投資環境，支撐了對發電容量的龐大投資。

而且，由於固定價格買進制度（Feed-in Tariff）、補貼金及其他獎勵制度，對可再生能源發電的投資，每年大幅度上升。

然而，依然殘留課題，必須保持困難的平衡。

例如，依據對煤發電廠的on-grid-tariff關聯政策，電力公司無法將燃料成本上升的部份全部轉嫁給消費者。故會阻礙將來市場發展的可能性。

最近因為煤價格高漲，許多電力公司煤發電廠的營運不是損失不貲，就是為了減輕損失而降低發電廠的開工率。

2011年最初的4個月，中國前6家電力公司在火力發電廠事業上， 6家公司合計損失16億2,000萬美元。

要持續此狀況是不可能的。好幾個地區已經持續電力不足。

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