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市場調查報告書

全球風能產業分析

Analyzing the Global Wind Energy Industry 2015

出版商 Aruvian's R'search 商品編碼 263411
出版日期 內容資訊 英文 450 Pages
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全球風能產業分析 Analyzing the Global Wind Energy Industry 2015
出版日期: 2015年09月01日 內容資訊: 英文 450 Pages
簡介

在全球許多國家(特別是歐洲等已開發國家)風力發電已成了主力能源。再加上環保優點(不需要燃料、可在全球任一地運作等),風力發電已經達到了能與傳統藉由石化燃料的火力發電競爭的水準。

本報告分析全球風力發電產業,調查目前能源市場中風力發電的重要性、風力發電技術概要、經濟面優點與課題、各國市場結構趨勢與政策措施(法規、稅收優惠政策等),並提供主要企業簡介等資料。

摘要整理

第1部分 風力發電概要

風力發電概要

  • 風力發電:乾淨綠色能源
  • 風力發電簡史
  • 來自風力的電力
  • 風力發電機如何發揮作用?
  • 風力發電技術
  • 風力發電市場
  • 風力發電中對天氣變化的因應
  • 環境影響

為什麼選擇風力發電?

  • 概要
  • 風力發電優點
  • 風力發電量

風力發電技術

  • 簡介
  • 影響市場發展的物理因素
  • 風力發電機種類
  • 高空風力發電機(Airborne Wind Turbine)
  • 風力發電機輸出功率
  • 風力發電機成本
  • 風力發電機尺寸
  • 效率因素
  • 海上風力發電機
  • 發電機壽命
  • 全球化對風力發電機市場的影響

促進風力發電成長要素與課題

  • 供電穩定性
  • 環境面潛力
  • 氣候變化與風力發電
  • 經濟實現可能性
  • 農村僱用與開發
  • 再生能源配額
  • 電力構成多樣化
  • 技術

全球風力發電產業分析

  • 市場概況
  • 全球經濟衰退與風力發電市場實績
  • 市場統計
  • 全球各地區市場分析
  • EU的風力發電
  • 風力發電與全球各國供電
  • 全球海上風力發電市場
  • 全球風力發電市場趨勢

風力發電成本分析

  • 概要
  • 風力發電成本
  • 風力發電機安裝成本
  • 總成本
  • 連接電網成本
  • 開發成本
  • 固定成本高:營運商角色
  • 與傳統發電方式成本比較

第2部分 各國市場分析

澳洲

巴西

加拿大

智利

中國

丹麥

法國

德國

印度

義大利

日本

墨西哥

波蘭

羅馬尼亞

蘇格蘭

西班牙

南非

土耳其

英國

美國

第3部分 全球風力發電產業預測與主要企業分析

全球風力發電產業展望

主要企業

  • Acciona SA
  • Alstom SA
  • Dong Energy A/S
  • Doosan Heavy Industries and Construction Co., Ltd
  • Electricite de France (EDF)
  • Enercon
  • E.ON SE
  • Futuren SA
  • Gamesa Corporacion Tecnologica SA
  • General Electric Company
  • 日立製作所
  • Iberdrola SA
  • LM Wind Power
  • NextEra Energy, Inc.
  • Nordex SE
  • RWE AG
  • Senvion SE
  • Sinovel Wind Group Company Limited
  • Suzlon Energy Limited
  • Vattenfall AB
  • Vestas Wind Systems A/S
  • Windflow Technology Limited
  • Centrica Plc
  • China Datang Corporation Renewable Power Co., Limited
  • China Longyuan Power Group Corporation Limited
  • Dewind Company
  • Direct Energie SA
  • Eneco Holding NV
  • Hindustan Zinc Limited
  • Huadian Fuxin Energy Corporation Limited
  • Huaneng Renewables Corporation Limited
  • Lagerwey Wind BV
  • Scottish and Southern Energy Plc
  • Tata Power Company Limited
  • Xinjiang Goldwind Science & Tech Co Ltd
  • Vergnet SA

第4部 結論

附錄

術語表

圖表一覽

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目錄

In many parts of the world, wind energy has already grown to be a mainstream energy source. This growth has long been driven by concerns about global climate change, mainly in the developed world and especially in Europe.

Wind energy has emerged as the most attractive solution to the world's energy challenges. It is clean and fuel-free. Moreover, wind is indigenous and enough wind blows across the globe to cope with the ever increasing electricity demand. Moreover, wind power generation is increasingly competitive with conventional fossil fuel sources and already today is on a par with new coal or gas fired power stations.

Aruvian Research brings you a complete in-depth focus on the global wind energy in its report - Analyzing the Global Wind Energy Industry. The report explores the importance of wind power in today's energy-hungry world. The report looks at the basics of the wind power industry, that is, how a wind turbine works, analyzing and understanding the technologies involved in harvesting wind power, and much more. Economics, issues and barriers, regulatory incentives, tax incentives, and other such factors are also explored in-depth in this report. This offering includes a complete analysis of the major countries investing in wind power, along with companies around the world which are making waves in the field of wind power. The report is a comprehensive A to Z guide on the global wind power industry.

Table of Contents

Executive Summary

Section 1: Overview of Wind Energy

A. Introduction to Wind Power

  • A.1 A Clean Green Energy - Wind Power
    • A.1.1 What is Wind Power?
    • A.1.2 How does it Work?
  • A.2 Brief History of Wind Power
  • A.3 Electricity from Wind
  • A.4 How do Wind Turbines Work?
  • A.5 Wind Power Technology
  • A.6 Wind Power Markets
  • A.7 Accommodating the Variable Nature of Wind Power
  • A.8 Environmental Impact

B. Why Choose Wind Power?

  • B.1 Overview
  • B.2 Benefits of Wind Power
  • B.3 Power Generation from Wind

C. Wind Power Technology

  • C.1 Introduction
  • C.2 Physical Factors Affecting Market Development
  • C.3 Types of Turbines
  • C.4 Airborne Wind Turbine
  • C.5 Wind Turbine's Power Output
  • C.6 Cost of a Wind Turbine
  • C.7 Turbine Size
  • C.8 Efficiency Factors
  • C.9 Offshore Wind Turbines
  • C.10 Lifetime of a Turbine
  • C.11 Globalization Impacting the Wind Turbine Market

D. Growth Drivers & Challenges for Wind Energy

  • D.1 Supply Security
  • D.2 Environmental Potential
  • D.3 Climate Change & Wind Power
    • D.3.1 Clean Development Mechanism
    • D.3.2 Wind Energy CDM Projects
  • D.4 Economic Feasibility
  • D.5 Employment & Development of Rural Areas
  • D.6 Renewable Quotas
  • D.7 Diversification of Portfolio
  • D.8 Technology

E. Analyzing the Global Wind Energy Industry

  • E.1 Market Profile
  • E.2 Worldwide Economic Recession & Performance of the Wind Power Market
  • E.3 Market Statistics
  • E.4 Market Analysis by Region
    • E.4.1 Africa & the Middle East
    • E.4.2 Asia
    • E.4.3 Europe
    • E.4.4 North America
    • E.4.5 South & Latin America
    • E.4.6 Pacific Region
  • E.5 Wind Power in the European Union (EU)
    • E.5.1 Overview
    • E.5.2 Offshore Wind Market
    • E.5.3 Market Trends
    • E.5.4 Regulatory Framework
  • E.6 Global Offshore Wind Market
    • E.6.1 Overview
    • E.6.2 Asia
    • E.6.3 Europe
    • E.6.4 United States
  • E.7 Trends in the Global Wind Power Market

F. Wind Energy Cost Analysis

  • F.1 Overview
  • F.2 Cost of Wind Power
  • F.3 Wind Turbine Installation Cost
  • F.4 Total Cost
  • F.5 Cost for Connecting to the Grid
  • F.6 Developmental Costs
  • F.7 High Fixed Costs: Role of Operators
  • F.8 Comparing Costs with Conventional Power

Section 2: Country Analysis

A. Australia

  • A.1 Market Profile
  • A.2 Wind Resources
  • A.3 Major Wind Farms
  • A.4 Industry Projects
  • A.5 Regulatory Framework
  • A.6 Industry Outlook

B. Brazil

  • B.1 Market Profile
  • B.2 Wind Resources
  • B.3 Major Wind Farms
  • B.4 Offshore Wind Development
  • B.5 Regulatory Framework
  • B.6 Industry Outlook

C. Canada

  • C.1 Market Profile
  • C.2 Regulatory Framework
  • C.3 Wind Vision 2025
  • C.4 Industry Outlook

D. Chile

  • D.1 Market Profile
  • D.2 Regulatory Framework
  • D.3 Industry Outlook

E. China

  • E.1 Market Profile
  • E.2 Wind Resources
  • E.3 Geographical Distribution of Wind Resources
  • E.4 Offshore Wind Industry
  • E.5 Wind Power by Region
    • E.5.1 Eastern Inner Mongolia
    • E.5.2 Gansu Jiuquan
    • E.5.3 Hebei
    • E.5.4 Jiangsu Coastal Area
    • E.5.5 Jilin
    • E.5.6 Kumul, Xinjiang
    • E.5.7 Western Inner Mongolia
  • E.6 Onshore Feed-in Tariff
  • E.7 Regulatory Framework
  • E.8 Industry Outlook

F. Denmark

  • F.1 Market Profile
  • F.2 Wind Resources
  • F.3 Offshore Wind Market
    • F.3.1 Offshore Wind Power Policy
    • F.3.2 Double-Edged Development Strategy
    • F.3.3 Framework Conditions
    • F.3.4 Offshore Wind Energy Strategy
    • F.3.5 Feed-in Tariffs for Offshore Wind Power
    • F.3.6 Offshore Wind Power Future
  • F.4 Regulatory Framework
  • F.5 Industry Outlook

G. France

  • G.1 Market Profile
  • G.2 Offshore Wind Market
  • G.3 Regulatory Framework
  • G.4 Industry Outlook

H. Germany

  • H.1 Market Profile
  • H.2 Regulatory Framework
  • H.3 Offshore Wind Market
  • H.4 Industry Outlook

I. India

  • I.1 Market Profile
  • I.2 Wind Potential & Wind Resources
  • I.3 Offshore Wind Market
  • I.4 Regulatory Framework
  • I.5 Industry Outlook

J. Italy

  • J.1 Market Profile
  • J.2 Regulatory Framework
  • J.3 Industry Outlook

K. Japan

  • K.1 Market Profile
  • K.2 Impact of the Tohoku Earthquake
  • K.3 Wind Resources
  • K.4 Feed-in-Tariff & Regulatory Framework
  • K.5 Offshore Wind Market
  • K.6 Industry Outlook

L. Mexico

  • L.1 Market Profile
  • L.2 Regulatory Framework
  • L.3 Industry Outlook

M. Poland

  • M.1 Market Profile
  • M.2 Offshore Wind Market
  • M.3 Regulatory Framework
  • M.4 Industry Outlook

N. Romania

  • N.1 Market Profile
  • N.2 Regulatory Framework
  • N.3 Industry Outlook

O. Scotland

  • O.1 Market Profile
  • O.2 Growing Offshore Wind Market
  • O.3 Wind Resources
  • O.4 Wind Potential

P. Spain

  • P.1 Market Profile
  • P.2 Export Market
  • P.3 Wind Power Resources
  • P.4 Wind Power by Region
    • P.4.1 Galicia
    • P.4.2 Navarre
  • P.5 Regulatory Framework

Q. South Africa

  • Q.1 Market Profile
  • Q.2 Industry Challenges
  • Q.3 Industry Outlook

R. Turkey

  • R.1 Market Profile
  • R.2 Regulatory Framework
  • R.3 Industry Outlook

S. United Kingdom

  • S.1 Market Profile
  • S.2 Regulatory Framework
  • S.3 Industry Outlook

T. United States

  • T.1 Market Profile
  • T.2 Manufacturing Industry for Wind Turbines
  • T.3 Wind Resources
  • T.4 Wind Power Market by State
    • T.4.1 California
    • T.4.2 Illinois
    • T.4.3 Iowa
    • T.4.4 Kansas
    • T.4.5 Texas
  • T.5 Industry Outlook

Section 3: Global Wind Power Industry Forecast & Analysis of Major Players

A. Global Wind Power Industry Outlook

B. Major Players

  • B.1 Acciona SA
    • B.1.1 Corporate Profile
    • B.1.2 Business Segment Analysis
    • B.1.3 Financial Analysis
    • B.1.4 SWOT Analysis
  • B.2 Alstom SA
    • B.2.1 Corporate Profile
    • B.2.2 Business Segment Analysis
    • B.2.3 Financial Analysis
    • B.2.4 SWOT Analysis
  • B.3 Dong Energy A/S
    • B.3.1 Corporate Profile
    • B.3.2 Business Segment Analysis
    • B.3.3 Financial Analysis
    • B.3.4 SWOT Analysis
  • B.4 Doosan Heavy Industries and Construction Co., Ltd
    • B.4.1 Corporate Profile
    • B.4.2 Business Segment Analysis
    • B.4.3 Financial Analysis
    • B.4.4 SWOT Analysis
  • B.5 Electricité de France (EDF)
    • B.5.1 Corporate Profile
    • B.5.2 Business Segment Analysis
    • B.5.3 Financial Analysis
    • B.5.4 SWOT Analysis
  • B.6 Enercon
    • B.6.1 Corporate Profile
    • B.6.2 Business Segment Analysis
    • B.6.3 Financial Analysis
    • B.6.4 SWOT Analysis
  • B.7 E.ON SE
    • B.7.1 Corporate Profile
    • B.7.2 Business Segment Analysis
    • B.7.3 Financial Analysis
    • B.7.4 SWOT Analysis
  • B.8 Futuren SA
    • B.8.1 Corporate Profile
    • B.8.2 Business Segment Analysis
    • B.8.3 Financial Analysis
    • B.8.4 SWOT Analysis
  • B.9 Gamesa Corporacion Tecnologica SA
    • B.9.1 Corporate Profile
    • B.9.2 Business Segment Analysis
    • B.9.3 Financial Analysis
    • B.9.4 SWOT Analysis
  • B.10 General Electric Company
    • B.10.1 Corporate Profile
    • B.10.2 Business Segment Analysis
    • B.10.3 Financial Analysis
    • B.10.4 SWOT Analysis
  • B.11 Hitachi
    • B.11.1 Corporate Profile
    • B.11.2 Business Segment Analysis
    • B.11.3 Financial Analysis
    • B.11.4 SWOT Analysis
  • B.12 Iberdrola SA
    • B.12.1 Corporate Profile
    • B.12.2 Business Segment Analysis
    • B.12.3 Financial Analysis
    • B.12.4 SWOT Analysis
  • B.13 LM Wind Power
    • B.13.1 Corporate Profile
    • B.13.2 Business Segment Analysis
    • B.13.3 Financial Analysis
    • B.13.4 SWOT Analysis
  • B.14 NextEra Energy, Inc.
    • B.14.1 Corporate Profile
    • B.14.2 Business Segment Analysis
    • B.14.3 Financial Analysis
    • B.14.4 SWOT Analysis
  • B.15 Nordex SE
    • B.15.1 Corporate Profile
    • B.15.2 Business Segment Analysis
    • B.15.3 Financial Analysis
    • B.15.4 SWOT Analysis
  • B.16 RWE AG
    • B.16.1 Corporate Profile
    • B.16.2 Business Segment Analysis
    • B.16.3 Financial Analysis
    • B.16.4 SWOT Analysis
  • B.17 Senvion SE
    • B.17.1 Corporate Profile
    • B.17.2 Business Segment Analysis
    • B.17.3 Financial Analysis
    • B.17.4 SWOT Analysis
  • B.18 Sinovel Wind Group Company Limited
    • B.18.1 Corporate Profile
    • B.18.2 Business Segment Analysis
    • B.18.3 Financial Analysis
    • B.18.4 SWOT Analysis
  • B.19 Suzlon Energy Limited
    • B.19.1 Corporate Profile
    • B.19.2 Business Segment Analysis
    • B.19.3 Financial Analysis
    • B.19.4 SWOT Analysis
  • B.20 Vattenfall AB
    • B.20.1 Corporate Profile
    • B.20.2 Business Segment Analysis
    • B.20.3 Financial Analysis
    • B.20.4 SWOT Analysis
  • B.21 Vestas Wind Systems A/S
    • B.21.1 Corporate Profile
    • B.21.2 Business Segment Analysis
    • B.21.3 Financial Analysis
    • B.21.4 SWOT Analysis
  • B.22 Windflow Technology Limited
    • B.22.1 Corporate Profile
    • B.22.2 Business Segment Analysis
    • B.22.3 Financial Analysis
    • B.22.4 SWOT Analysis
  • B.23 Centrica Plc
  • B.24 China Datang Corporation Renewable Power Co., Limited
  • B.25 China Longyuan Power Group Corporation Limited
  • B.26 Dewind Company
  • B.27 Direct Energie SA
  • B.28 Eneco Holding NV
  • B.29 Hindustan Zinc Limited
  • B.30 Huadian Fuxin Energy Corporation Limited
  • B.31 Huaneng Renewables Corporation Limited
  • B.32 Lagerwey Wind BV
  • B.33 Scottish and Southern Energy Plc
  • B.34 Tata Power Company Limited
  • B.35 Xinjiang Goldwind Science & Tech Co Ltd
  • B.36 Vergnet SA

Section 4: Conclusion

A. Appendix

B. Glossary of Terms

List of Figures

  • Figure 1: Power Curve for Wind Turbine
  • Figure 2: Energy Produced at Various Wind Speeds at Typical Wind Farm Site
  • Figure 3: Energy Produced at Various Wind Speeds at Typical Site
  • Figure 4: Capacity Factor in% of Rated Power
  • Figure 5: Aerodynamics of Wind Power
  • Figure 6: Components in a Simplified Wind Turbine
  • Figure 7: Airborne Wind Generator
  • Figure 8: Main Components of a Wind Turbine and their Share of the Overall Turbine Cost for a 5 MW Wind Turbine
  • Figure 9: Turbine Diameter Growth with Time
  • Figure 10: Growth in Size of Commercial Wind Turbine Designs
  • Figure 11: Development of the Average Wind Turbine Size Sold in Different Countries (in KW)
  • Figure 12: Increase in Turbine Prices from 2012 to 2014
  • Figure 13: Top 10 Cumulative Capacity as of Dec 2014
  • Figure 14: Top 10 New Installed Capacity Jan-Dec 2014
  • Figure 15: Global Annual Installed Wind Capacity 1997-2014
  • Figure 16: Global Cumulative Installed Wind Capacity 1997-2014
  • Figure 17: Annual Installed Capacity by Region 2006-2014
  • Figure 18: Share of New Wind Power Installations in the EU (in MW), 2014
  • Figure 19: Total Installed Capacity in the European Union (in MW), 2001-2014
  • Figure 20: Electricity Generating Installations in the EU (in GW), 2000-2014
  • Figure 21: Annual Offshore Wind Capacity Installations in Europe in 2014 (in MW)
  • Figure 22: Share of Wind Turbine Manufacturers' at end of 2014 (in MW)
  • Figure 23: Calculated Costs per kWh of Wind Generated Power as a Function of the Wind Regime at the Chosen Site (Number of Full Load Hours)
  • Figure 24: O&M Costs as Reported for Selected Types and Ages of Turbines (c€/kWh)
  • Figure 25: O&M Costs Reported for Selected Sizes and Types of Wind Turbines (c€/kWh)
  • Figure 26: Component Costs for Typical Wind Plants
  • Figure 27: Electricity Generating Costs in Selected Regions, 2015 & 2030
  • Figure 28: Costs of Wind Produced Power as a Function of Wind Speed
  • Figure 29: Generating Costs of New Power Plants
  • Figure 30: Total Installed Wind Capacity in Australia (in MW), 2001-2014
  • Figure 31: Total Installed Capacity of Wind Power in Brazil (in MW), 2005-2014
  • Figure 32: Major Players in the Brazilian Wind Market & their Market Share in 2014 (in MW)
  • Figure 33: Installed Wind Capacity in Canada by Province, 2014
  • Figure 34: Total Installed Capacity of Wind Power in Chile (in MW), 2006-2014
  • Figure 35: Total Installed Capacity of Wind Power in China (in MW), 2011-2014
  • Figure 36: Distribution Map of China's Average Wind Energy Density at 10m Above Ground Level
  • Figure 37: Costs to Electricity Consumers of the Feed-in Tariff for Wind Power Produced Electricity
  • Figure 38: Major Players in the French Wind Market, Cumulative, 2014 (in MW)
  • Figure 39: France Wind Energy Industry Installed Capacity by Region in 2014
  • Figure 40: Total Installed Capacity of Wind Power in Germany (in MW), 2002-2014
  • Figure 41: Development of Offshore Wind Energy in Germany (OWT feeding-in), by the end of 2014
  • Figure 42: Yearly Installed and Cumulative Capacity (MW) of Land-Based Wind Energy in Germany including Repowering and Dismantling, 1992-2014
  • Figure 43: Total Installed Capacity of Wind Power in India (in MW), 2001-2014
  • Figure 44: Wind Resource Map of India
  • Figure 45: Total Installed Capacity of Wind Power in Italy (in MW), 2001-2014
  • Figure 46: Total Installed Capacity of Wind Power in Japan (in MW), 2000-2014
  • Figure 47: Total Installed Capacity of Wind Power in Mexico (in MW), 2005-2014
  • Figure 48: Expected Growth of Installed Wind Capacity in Mexico (in MW), 2007-2022
  • Figure 49: Installed Capacity of Wind Power by Regions in Poland (in MW), 2014
  • Figure 50: Total Installed Capacity of Wind Power in Poland (in MW), 2001-2014
  • Figure 51: Wind Map of Romania
  • Figure 52: Total Installed Capacity of Wind Power in South Africa (in MW), 2002-2014
  • Figure 53: Total Installed Capacity of Wind Power in Turkey (in MW), 2001-2014
  • Figure 54: Total Installed Capacity of Wind Power in UK (in MW), 2001-2014
  • Figure 55: Total Installed Capacity of Wind Power in the US (in MW), 2001-2014
  • Figure 56: Supply Curve for Wind Energy - Current Bus-Bar Energy Costs
  • Figure 57: Supply Curve for Wind Energy - Energy Costs Including Connection to 10% of Existing Transmission Grid Capacity
  • Figure 58: 46 States with Substantial Wind Development by 2030
  • Figure 59: Total Installed Wind Capacity 1997-2020 (MW)
  • Figure 60: Revenues & Profitability of DONG Energy A/S (in USD Million), 2009-2013
  • Figure 61: Revenues & Profitability of Electricité de France (EDF) (in USD Million), 2009-2013
  • Figure 62: Revenues & Profitability of E.ON SE (in USD Million), 2009-2013
  • Figure 63: Revenues & Profitability of Iberdrola SA (in USD Million), 2009-2013
  • Figure 64: Revenues & Profitability of NextEra Energy, Inc. (in USD Million), 2009-2013
  • Figure 65: Revenues & Profitability RWE AG (in USD Million), 2009-2013
  • Figure 66: Revenues & Profitability of Suzlon Energy Limited (in USD Million), 2010-2014
  • Figure 67: Revenues & Profitability of Vattenfall AB (in USD Million), 2009-2013
  • Figure 68: Revenues & Profitability China Datang Corporation Renewable Power Co., Limited (in USD Million), 2009-2013
  • Figure 69: Revenues & Profitability of China Longyuan Power Group Corporation Limited (in USD Million), 2009-2013
  • Figure 70: Revenues & Profitability of Hindustan Zinc Limited (in USD Million), 2010-2014
  • Figure 71: Revenues & Profitability Huadian Fuxin Energy Corporation Limited (in USD Million), 2009-2013
  • Figure 72: Revenues & Profitability of Huaneng Renewables Corporation Limited (in USD Million), 2009-2013
  • Figure 73: General Layout for a Wind Turbine System
  • Figure 74: An Offshore Wind Farm
  • Figure 75: Overall Wind Farm Costs
  • Figure 76: Total Renewables Cost Envelope vs. Coal, Gas & Nuclear Cost
  • Figure 77: Combustion Emissions from Electricity Generation 2005-2050
  • Figure 78: Low Emission Generation Requirements

List of Tables

  • Table 1: Four Optional Installation Systems for Offshore Wind Power
  • Table 2: Environmental Footprint of Wind
  • Table 3: Wind CDM Projects
  • Table 4: Global Installed Wind Power Capacity (MW) by Regions, 2013-2014
  • Table 5: Upcoming Offshore Wind Power Projects in Japan
  • Table 6: Wind Farms and Turbines Connected to the Grid at end of 2014 in Europe
  • Table 7: Large-scale Wind Turbines Newly Developed in Europe
  • Table 8: Power Range of Global Newly-installed Wind Turbines in 2010
  • Table 9: Cost Structure of a Typical 2 MW Wind Turbine Installed in Europe
  • Table 10: New Wind Farms in Australia in 2014
  • Table 11: Installed Wind Capacity in Australia by State
  • Table 12: Wind Farms under Construction in Australia
  • Table 13: Installed Wind Capacity by State in Brazil, 2014 (in MW)
  • Table 14: Total Installed Capacity of Wind Power in Canada (in MW), 2001-2014
  • Table 15: Top 10 Provinces in China with New Capacity Installed in 2014
  • Table 16: Installed Capacity Planned for the 10 GW-Scale Wind Power Base in Jiuquan, Gansu (MW)
  • Table 17: Installed Capacity Planned for Hebei Wind Power Base (MW)
  • Table 18: Cumulative Development Objectives for Jiangsu Wind Power Base (MW)
  • Table 19: Total Installed Capacity of Wind Power in Denmark (in MW), 2011-2014
  • Table 20: Total Installed Capacity of Wind Power in France (in MW), 2002-2014
  • Table 21: PLIs at Various Locations in India
  • Table 22: Estimated State-wise Wind Power Potential in India
  • Table 23: Development of New Wind Turbines by Japanese Manufacturers
  • Table 24: Completed Wind Projects in Mexico, 2014
  • Table 25: Installed Onshore Wind Capacity by Region in in the UK, 2014
  • Table 26: Key Financials of DONG Energy A/S (in USD Million), 2009-2013
  • Table 27: Key Financials of Electricité de France (EDF) (in USD Million), 2009-2013
  • Table 28: Major Turbines Developed by Enercon
  • Table 29: Key Financials of E.ON SE (in USD Million), 2009-2013
  • Table 30: Key Financials of Iberdrola SA (in USD Million), 2009-2013
  • Table 31: Key Financials of NextEra Energy, Inc. (in USD Million), 2009-2013
  • Table 32: Key Financials of RWE AG (in USD Million), 2009-2013
  • Table 33: Key Financials of Suzlon Energy Limited (in USD Million), 2010-2014
  • Table 34: Key Financials of Vattenfall AB (in USD Million), 2009-2013
  • Table 35: Key Financials of China Datang Corporation Renewable Power Co., Limited (in USD Million), 2009-2013
  • Table 36: Key Financials of China Longyuan Power Group Corporation Limited (in USD Million), 2009-2013
  • Table 37: Key Financials of Hindustan Zinc Limited (in USD Million), 2010-2014
  • Table 38: Key Financials of Huadian Fuxin Energy Corporation Limited (in USD Million), 2009-2013
  • Table 39: Key Financials of Huaneng Renewables Corporation Limited (in USD Million), 2009-2013
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