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市場調查報告書

全球風力發電機產業:各種統計、SWT市場分析、價值鏈分析、市場預測 (2001-2020年)

Global Wind Turbine Industry - Statistics, Small Wind Turbine Market Analysis, Value Chain Analysis & Forecast 2001-2020

出版商 Aruvian's R'search 商品編碼 346759
出版日期 內容資訊 英文 655 Pages
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全球風力發電機產業:各種統計、SWT市場分析、價值鏈分析、市場預測 (2001-2020年) Global Wind Turbine Industry - Statistics, Small Wind Turbine Market Analysis, Value Chain Analysis & Forecast 2001-2020
出版日期: 2015年12月01日 內容資訊: 英文 655 Pages
簡介

本報告提供全球風力發電機的產業及市場相關調查、風力發電的技術及市場概要、風力發電機的技術及市場概要、風力發電機的全球及各區各國的設備容量的變化與預測、各零件市場詳細分析及設備容量的變化與預測、小型風力發電機 (SWT) 的技術及市場分析、主要企業的市場佔有率、簡介等詳細彙整。

摘要整理

章節1:風力發電概要

  • 風力發電技術
    • 簡介
    • 渦輪機的各種類型
    • 空中風力發電機
    • 風力發電機的輸出
    • 渦輪機尺寸
    • 效率因素
    • 海上風力發電機
    • 渦輪機的壽命
    • 風力發電機影響市場的全球化
  • 全球風力發電產業分析
    • 市場簡介
    • 市場統計
    • 風力發電統計
    • 產業區分
    • 全球離岸式風力市場
    • 風力的發電
    • 風力發電的成本
    • 風力發電的投資
    • 全球風力發電市場趨勢
  • 全球風力發電產業的展望
    • 產業預測
    • 亞洲
    • 歐洲
    • 北美
    • 南美
    • 非洲、中東
    • 太平洋

章節2:全球風力發電機產業

  • 簡介:風力發電機
    • 風力發電機的零組件
    • 一般的風力發電機模式
  • 全球風力發電機產業分析
    • 市場概要
    • 全球風力發電機的引進
    • 市場規模
    • 產業規模
    • 渦輪機尺寸
    • 各地區概要
    • 市場佔有率
    • 產業基礎設施
  • 風力發電機的成本分析
    • 風力預備隊的成本分析
    • 渦輪機成本
    • 成本的影響
    • 總論
  • 全球風力發電機對產業的影響因素
  • 亞太地區的風力發電機市場
    • 市場概要
    • 風力發電機的引進數
    • 中國
    • 印度
      • 市場概要
      • 設備容量
      • 渦輪機尺寸
      • 風力發電機成本分析
      • 法律制度
      • 市場佔有率等
  • 歐洲的風力發電機市場
    • 市場概要
    • 風力發電機的引進數
    • 法國
    • 德國
    • 義大利
    • 西班牙
      • 市場概要
      • 設備容量
      • 渦輪機尺寸
      • 風力發電機成本分析
      • 法律制度
      • 市場佔有率等
  • 北美的風力發電機市場
    • 市場概要
    • 風力發電機的引進數
    • 加拿大
    • 美國
      • 市場概要
      • 設備容量
      • 渦輪機尺寸
      • 風力發電機成本分析
      • 法律制度
      • 市場佔有率等

章節3:全球小型風力發電機 (SWT) 市場分析

  • 簡介:小型風力發電機
  • 小型風力發電機技術
    • 垂直軸型&水平軸型風力發電機
    • 獨立式&並聯型系統
    • 混合電子系統
    • 主要的小型風力發電機模式
    • 技術趨勢
  • 全球小型風力發電機產業分析
    • 產業概要
    • 設備容量
    • 小型風力發電機的發電
    • 成本分析
    • 市場趨勢
    • 市場佔有率
  • 全球小型風力發電機對產業的影響因素
    • 成長推動因素
    • 課題
  • 小型風力發電機的主要市場分析
    • 加拿大
    • 中國
    • 丹麥
    • 德國
    • 印度
    • 西班牙
    • 英國
    • 美國

章節4:風力發電機的價值鏈分析

  • 簡介
  • 風力發電機用變速箱市場
    • 概要
    • 變速箱的可靠性相關課題
    • 無齒輪傳動風力發電機
    • 全球風力發電機用變速箱市場:概要
    • 產業規模
    • 變速箱的製造
    • 成本
    • 市場趨勢
    • 市場佔有率分析
    • 競爭環境
  • 風力發電機發電機市場
    • 概要
    • 發電機的類型
    • 全球風力發電機發電機市場:概要
    • 製造統計
    • 產業規模
    • 成本
    • 市場趨勢
    • 競爭環境
  • 風力發電機用葉輪市場
    • 概要
    • 葉輪的製造
    • 全球風力發電機用葉輪市場:概要
    • 產業規模
    • 成本
    • 市場趨勢
    • 競爭環境
  • 風力發電機塔市場
    • 概要
    • 高度
    • 風力發電機塔的類型
    • 全球全球風力發電機塔市場:概要
    • 產業規模
    • 成本
    • 市場趨勢
    • 競爭環境

章節5:主要企業分析

  • 主要企業
    • ABB Ltd.
    • Acciona SA
    • Alstom SA
    • China Ming Yang Wind Power Group Ltd
    • Dong Energy A/S
    • Dongfang Electric Corporation Limited
    • Doosan Heavy Industries and Construction Co., Ltd
    • Electricite de France (EDF)
    • ELIN Motoren
    • Enercon
    • E.ON SE
    • Futuren SA
    • Gamesa Corporacion Tecnologica SA
    • General Electric Company
    • Hitachi
    • Iberdrola SA
    • LM Wind Power
    • NextEra Energy, Inc.
    • Nordex SE
    • RWE AG
    • Senvion SE
    • Siemens AG
    • Sinovel Wind Group Company Limited
    • Suzlon Energy Limited
    • Vattenfall AB
    • Vestas Wind Systems A/S
    • Windflow Technology Limited
    • Winergy AG
    • Bosch Rexroth
    • Centrica Plc
    • China Datang Corporation Renewable Power Co., Limited
    • China High Speed Transmission Equipment Group
    • China Longyuan Power Group Corporation Limited
    • CSIC (Chongqing) Haizhuang Windpower Equipment Co., Ltd. (CSIC)
    • Dewind Company
    • Direct Energie SA
    • Emergya Wind Technologies B.V.
    • Eneco Holding NV
    • Envision Energy
    • Euros GmbH
    • Guodian United Power Technology Co., Ltd.
    • Hindustan Zinc Limited
    • Huadian Fuxin Energy Corporation Limited
    • Huaneng Renewables Corporation Limited
    • Inox Wind
    • Ishibashi Manufacturing Co., Ltd.
    • Lagerwey Wind BV
    • Leitwind
    • Leroy-Somer Holding
    • Lianyungang Zhongfu Lianzhong Composites Group Co., Ltd.
    • Moventas Santasalo Oy
    • Northern Power Systems
    • Regen Powertech
    • Renk AG
    • Scottish and Southern Energy Plc
    • STX Windpower BV
    • Tata Power Company Limited
    • Vensys Energy
    • Vergnet SA
    • XEMC Windpower
    • Xinjiang Goldwind Science & Tech Co Ltd
    • Yongji Xinshisu Electric Equipment Co., Ltd
    • ZF Wind Power Antwerpen

章節6:總論

圖表

目錄

As the world moves towards a future of generating energy primarily from renewable energy sources, there is no doubt that wind power has become one of the fastest growing technologies amongst the various other renewable energy resources available today. Wind power has quickly become a commercial generating technology and with the advancements made in the designing of wind turbines and other technological improvements, the market for wind energy has also grown in terms of efficiency, reliability and power ratings.

Wind turbines have become an important part of the global energy market today and the growth in the global wind turbine market has created a favorable push for wind power. Driven by equally favorable government policies and regulations along with rising concerns for climate change worldwide, the market for wind turbines has seen rapid growth in recent years. Despite the economic crisis of 2008-2009, the wind turbine market continued to grow concentrated in few countries like China, Germany, the United States, Spain and India. These countries account for nearly 75% share of the global wind turbine market. Similarly, the major regions that drive the global installations of wind turbines include Europe, Asia Pacific and North America.

While there are many reports on the wind power industry, Aruvian Research brings a highly comprehensive research report on the Global Wind Turbine Industry that covers not only an overview of the global wind energy industry, but also takes a look at the global wind turbine industry, the global small wind turbine industry, carries out a value chain analysis of the global wind turbine industry and provides forecast, industry trends as well as opportunities - all in one report.

Divided into six sections, the report is one of its kind offering on an in-depth analysis of the global wind turbine market. Section 1 analyzes the global wind energy industry and wind power technology. We look at the types of turbines, turbines size and efficiency factors, offshore wind turbines, lifetime of a turbine and how globalization has impacted the wind turbine market.

The global wind energy industry is analyzed through a market profile and statistics, wind energy generation statistics, industry segmentation, a look at the global offshore wind market, electricity generation from wind power by segments and by regions and countries, the cost of generating electricity from wind power, etc. Investment in wind power and trends in the global wind power market are also analyzed in this section.

Outlook for the global wind power industry looks at industry forecast for the global market, for the Asian market, Europe, North America, Latin America, Africa and the Middle East and the Pacific region.

Section 2 of the report analyzes the global wind turbine industry beginning with a look at the components of a wind turbine and the common wind turbine models.

Analysis of the global wind turbine industry is carried out through a market overview, an analysis of the global installations of wind turbines, market size analysis, industry value analysis, a look at the turbine sizes used in the industry, etc. We also provide a regional overview of the industry, a market share analysis and a brief overview of industry infrastructure.

Cost analysis is carried out through an analysis of a mid-sized wind farm, cost of wind turbines, various impacts on cost, etc. Impacts on the global wind turbine industry such as challenges and factors driving the industry are also analyzed in the report.

The wind turbine market in Asia Pacific is analyzed through a market overview/statistics, wind turbine installations in Asia Pacific, and an analysis of the key markets in Asia Pacific, namely, China and India. Both the wind turbine markets in China and India are analyzed through a market overview, wind turbine installed capacity and market value, turbine size analysis, turbine cost analysis, regulatory framework in the countries, and a market share analysis.

Moving on, the wind turbine market in Europe is analyzed through market statistics, installation data of wind turbines and an analysis of the key wind turbine markets in Europe, namely, France, Germany, Italy and Spain. Each of these markets are further analyzed through a market overview, wind turbine installed capacity and market value, turbine size analysis, turbine cost analysis, regulatory framework in each country and a market share analysis.

Similarly, key markets analyzed with the same criteria in North America include Canada and the United States.

Section 3 of the report analyzes the Global Small Wind Turbine (SWT) Market beginning with defining the market for small wind turbines and comparing SWTs with large wind turbines. We also analyze the technology associated with small wind turbines such as vertical and horizontal axis wind turbines, hybrid electric systems, etc. Major small wind turbine models and their technical specifications are analyzed in this sections, followed by major technology trends in the global small wind turbine market.

Analysis of the global small wind turbine market is carried out through an industry overview, installed capacity of small wind turbines worldwide, power generated from SWTs and a cost analysis. Markets trends and a market share analysis is also included.

Impacts on the global small wind turbine industry such as industry challenges and factors driving the industry are also looked at in the report.

Key small wind turbine markets analyzed in the report include Canada, China, Denmark, Germany, India, Spain, United Kingdom and the United States. Each of these markets is analyzed through an industry overview, SWT installed capacity, power generated from SWTs, market revenues and cost analysis, turbine size and power range in the market, and regulations governing/impacting the market.

Section 4 of the report analyzes the wind turbine value chain in which we look at the various parts of a wind turbine such as gearboxes, generators, rotor blades and wind turbine towers.

The market for wind turbine gearboxes is analyzed through an overview, reliability issues are looked at, the advent of the gearless wind turbine, statistics of the global wind turbine gearbox market, industry size, production of gearboxes worldwide, cost of gearboxes, market trends, market share analysis and a competitive scenario.

The market for wind turbine generators is analyzed through an overview, types of generators used for wind turbines, an overview of the global wind turbine generator market, production statistics, industry size, cost analysis, market trends and a competitive analysis of the market.

The market for wind turbine rotor blades is analyzed through an overview, manufacturing process of rotor blades, an overview of the global market along with an analysis of the industry size, production of rotor blades, cost analysis, market trends and a competitive analysis.

The market for wind turbine towers is analyzed through an overview, impact of turbine height, types of wind turbine towers, an overview of the global market, industry size analysis, cost analysis, market trends and an analysis of the industry competition.

This completes the analysis of the value chain of the global wind turbine industry.

Section 5 of the report carries out an analysis of over 60 major players that are part of the global wind turbine industry such as ABB ltd., Acciona SA, Alstom, China Ming Yang Wind Power Group, Dong Energy, Vestas, Gamesa, Suzlon, Siemens AG and many others. Each of these major players is analyzed through a corporate profile, an analysis of their business segments, a financial analysis and a SWOT analysis.

Concluding the report, section 6 provides a glossary of terms and a research methodology for the report.

Aruvian Research's report Global Wind Turbine Industry - Statistics, Small Wind Turbine Market Analysis, Value Chain Analysis & Forecast 2001-2020 is a complete analysis of the global wind turbine market for the years 2001 till 2020.

Table of Contents

Executive Summary

Section 1: Overview of Wind Energy

A. Wind Power Technology

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

B. Analyzing the Global Wind Energy Industry

  • B.1 Market Profile
  • B.2 Market Statistics
  • B.3 Wind Energy Generation Statistics
  • B.4 Industry Segmentation
  • B.5 Global Offshore Wind Market
  • B.6 Electricity Generation from Wind Power
  • B.7 Electricity Generation from Wind by Regions
  • B.9 Electricity Generation from Wind by Segments
  • B.10 Cost of Generating Wind Power
  • B.11 Investment in Wind Power
  • B.12 Trends in the Global Wind Power Market

C. Global Wind Power Industry Outlook

  • C.1 Industry Forecast
  • C.2 Asia
  • C.3 Europe
  • C.4 North America
  • C.5 Latin America
  • C.6 Africa and the Middle East
  • C.7 Pacific

Section 2: Global Wind Turbine Industry

A. Introduction to Wind Turbines

  • A.1 Components of Wind Turbines
  • A.2 Common Wind Turbine Models

B. Analysis of the Global Wind Turbine Industry

  • B.1 Market Overview
  • B.2 Global Installations of Wind Turbines
  • B.3 Market Size
  • B.4 Industry Value
  • B.5 Turbine Size
  • B.6 Regional Overview
  • B.7 Market Share
  • B.8 Industry Infrastructure

C. Cost Analysis of Wind Turbines

  • C.1 Cost Analysis of a Wind Farm
  • C.2 Cost of Turbines
  • C.3 Impacts on Cost
  • C.4 Conclusion

D. Impacts on the Global Wind Turbine Industry

  • D.1 Favorable Policies Driving the Market
  • D.2 Insufficient Grid Infrastructure to Support Growth of Wind Power
  • D.3 Revamping of the Supply Chain
  • D.4 Need to Promote Investment in Wind Energy
  • D.5 Growth Opportunities for OEMs & Other Service Providers

E. Wind Turbine Market in Asia Pacific

  • E.1 Market Overview
  • E.2 Installations of Wind Turbines
  • E.3 Wind Turbine Market in China
    • E.3.1 Market Overview
    • E.3.2 Wind Turbine Installed Capacity & Market Value
    • E.3.3 Turbine Size in China
    • E.3.4 Wind Turbine Cost Analysis in China
    • E.3.5 Regulatory Framework
    • E.3.6 Market Share
  • E.4 Wind Turbine Market in India
    • E.4.1 Market Overview
    • E.4.2 Wind Turbine Installed Capacity & Market Value
    • E.4.3 Turbine Size in India
    • E.4.4 Wind Turbine Cost Analysis in India
    • E.4.5 Regulatory Framework
    • E.4.6 Market Share

F. Wind Turbine Market in Europe

  • F.1 Market Overview
  • F.2 Installations of Wind Turbines
  • F.3 Wind Turbine Market in France
    • F.3.1 Market Overview
    • F.3.2 Wind Turbine Installed Capacity & Market Value
    • F.3.3 Turbine Size in France
    • F.3.4 Wind Turbine Cost Analysis in France
    • F.3.5 Regulatory Framework
    • F.3.6 Market Share
  • F.4 Wind Turbine Market in Germany
    • F.4.1 Market Overview
    • F.4.2 Wind Turbine Installed Capacity & Market Value
    • F.4.3 Turbine Size in Germany
    • F.4.4 Wind Turbine Cost Analysis in Germany
    • F.4.5 Regulatory Framework
    • F.4.6 Market Share
  • F.5 Wind Turbine Market in Italy
    • F.5.1 Market Overview
    • F.5.2 Wind Turbine Installed Capacity & Market Value
    • F.5.3 Turbine Size in Italy
    • F.5.4 Wind Turbine Cost Analysis in Italy
    • F.5.5 Regulatory Framework
    • F.5.6 Market Share
  • F.6 Wind Turbine Market in Spain
    • F.6.1 Market Overview
    • F.6.2 Wind Turbine Installed Capacity & Market Value
    • F.6.3 Turbine Size in Spain
    • F.6.4 Wind Turbine Cost Analysis in Spain
    • F.6.5 Regulatory Framework
    • F.6.6 Market Share

G. Wind Turbine Market in North America

  • G.1 Market Overview
  • G.2 Installations of Wind Turbines
  • G.3 Wind Turbine Market in Canada
    • G.3.1 Market Overview
    • G.3.2 Wind Turbine Installed Capacity & Market Value
    • G.3.3 Turbine Size in Canada
    • G.3.4 Wind Turbine Cost Analysis in Canada
    • G.3.5 Regulatory Framework
    • G.3.6 Market Share
  • G.4 Wind Turbine Market in the United States
    • G.4.1 Market Overview
    • G.4.2 Wind Turbine Installed Capacity & Market Value
    • G.4.3 Turbine Size in the US
    • G.4.4 Wind Turbine Cost Analysis in the US
    • G.4.5 US Wind Turbine Supply Chain
    • G.4.6 Industry Infrastructure
    • G.4.7 Regulatory Framework
    • G.4.8 Market Share

Section 3: Analysis of the Global Small Wind Turbine (SWT) Market

A. Introduction to Small Wind Turbines

  • A.1 Industry Definition
  • A.2 Comparing Small Wind Turbines to Large Wind Turbines

B. Small Wind Turbine Technology

  • B.1 Vertical & Horizontal Axis Wind Turbines
  • B.2 Stand Alone & Grid Connected Systems
  • B.3 Hybrid Electric Systems
  • B.4 Major Small Wind Turbine Models
  • B.5 Technology Trends

C. Analyzing the Global Small Wind Turbine Industry

  • C.1 Industry Overview
  • C.2 Installed Capacity of Small Wind Turbines
  • C.3 Power Generation from Small Wind Turbines
  • C.4 Cost Analysis of Small Wind Turbine Market
  • C.5 Market Trends
  • C.6 Market Share

D. Impacts on the Global Small Wind Turbine Industry

  • D.1 Factors Driving the Market
  • D.2 Challenges Facing the Market

E. Analysis of Key Small Wind Turbine Markets

  • E.1 Canada
    • E.1.1 Industry Overview
    • E.1.2 SWT Installed Capacity in Canada
    • E.1.3 Power Generated from SWT in Canada
    • E.1.4 Market Revenue & Cost Analysis
    • E.1.5 Turbine Size & Power Range
    • E.1.6 Regulatory Framework
  • E.2 China
    • E.2.1 Industry Overview
    • E.2.2 SWT Installed Capacity in China
    • E.2.3 Regulatory Framework
  • E.3 Denmark
    • E.3.1 Industry Overview
    • E.3.2 SWT Installed Capacity in Denmark
    • E.3.3 Regulatory Framework
  • E.4 Germany
    • E.4.1 Industry Overview
    • E.4.2 SWT Installed Capacity in Germany
    • E.4.3 Regulatory Framework
  • E.5 India
    • E.5.1 Industry Overview
    • E.5.2 SWT Installed Capacity in India
    • E.5.3 Regulatory Framework
  • E.6 Spain
    • E.6.1 Industry Overview
    • E.6.2 SWT Installed Capacity in Spain
    • E.6.3 Regulatory Framework
  • E.7 United Kingdom
    • E.7.1 Industry Overview
    • E.7.2 SWT Installed Capacity in the UK
    • E.7.3 Power Generated from SWT in the UK
    • E.7.4 Market Revenue & Cost Analysis
    • E.7.5 Turbine Size & Power Range
    • E.7.6 Regulatory Framework
  • E.8 United States
    • E.8.1 Industry Overview
    • E.8.2 SWT Installed Capacity in the US
    • E.8.3 Power Generated from SWT in the US
    • E.8.4 Market Revenue & Cost Analysis
    • E.8.5 Turbine Size & Power Range
    • E.8.6 Regulatory Framework

Section 4: Analysis of the Wind Turbine Value Chain

A. Introduction

B. Market for Wind Turbine Gearboxes

  • B.1 Overview of Gearboxes
  • B.2 Why is a Gearbox Used?
  • B.3 Reliability Issues with Gearboxes
  • B.4 Gearless Wind Turbines
  • B.5 Global Wind Turbine Gearbox Market Overview
  • B.6 Industry Size
  • B.7 Production of Gearboxes
  • B.8 Cost of Wind Turbine Gearboxes
  • B.9 Market Trends
  • B.10 Market Share Analysis
  • B.11 Competitive Landscape

C. Market for Wind Turbine Generators

  • C.1 Overview of Wind Turbine Generators
  • C.2 Types of Generators used for Wind Turbines
    • C.2.1 Induction Generator
    • C.2.2 Permanent Magnet Alternators
    • C.2.3 Brushed DC Motor
  • C.3 Global Wind Turbine Generators Market Overview
  • C.4 Production Statistics
  • C.5 Industry Size
  • C.6 Cost of Wind Turbine Generators
  • C.7 Market Trends
  • C.8 Competitive Landscape

D. Market for Wind Turbine Rotor Blades

  • D.1 Overview of Rotor Blades
  • D.2 Manufacturing of Rotor Blades
  • D.3 Global Wind Turbine Rotor Blades Market Overview
  • D.4 Industry Size
  • D.5 Production of Rotor Blades
    • D.5.1 Overall Yearly Production
    • D.5.2 Independent Production of Rotor Blades by Manufacturers
    • D.5.3 In-house Production of Rotor Blades by Manufacturers
  • D.6 Cost of Wind Turbine Rotor Blades
  • D.7 Market Trends
  • D.8 Competitive Landscape

E. Market for Wind Turbine Towers

  • E.1 Overview of Wind Turbine Towers
  • E.2 Turbine Height
  • E.3 Types of Wind Turbine Towers
  • E.4 Global Wind Turbine Towers Market Overview
  • E.5 Industry Size
  • E.6 Cost of Wind Turbine Towers
  • E.7 Market Trends
  • E.8 Competitive Landscape

Section 5: Analysis of Major Players in the Global Wind Turbine Industry

A. Major Industry Players

  • A.1 ABB Ltd.
    • A.1.1 Corporate Profile
    • A.1.2 Business Segment Analysis
    • A.1.3 Financial Analysis
    • A.1.4 SWOT Analysis
  • A.2 Acciona SA
    • A.2.1 Corporate Profile
    • A.2.2 Business Segment Analysis
    • A.2.3 Financial Analysis
    • A.2.4 SWOT Analysis
  • A.3 Alstom SA
    • A.3.1 Corporate Profile
    • A.3.2 Business Segment Analysis
    • A.3.3 Financial Analysis
    • A.3.4 SWOT Analysis
  • A.4 China Ming Yang Wind Power Group Ltd
    • A.4.1 Corporate Profile
    • A.4.2 Business Segment Analysis
    • A.4.3 Financial Analysis
    • A.4.4 SWOT Analysis
  • A.5 Dong Energy A/S
    • A.5.1 Corporate Profile
    • A.5.2 Business Segment Analysis
    • A.5.3 Financial Analysis
    • A.5.4 SWOT Analysis
  • A.6 Dongfang Electric Corporation Limited
    • A.6.1 Corporate Profile
    • A.6.2 Business Segment Analysis
    • A.6.3 Financial Analysis
    • A.6.4 SWOT Analysis
  • A.7 Doosan Heavy Industries and Construction Co., Ltd
    • A.7.1 Corporate Profile
    • A.7.2 Business Segment Analysis
    • A.7.3 Financial Analysis
    • A.7.4 SWOT Analysis
  • A.8 Electricité de France (EDF)
    • A.8.1 Corporate Profile
    • A.8.2 Business Segment Analysis
    • A.8.3 Financial Analysis
    • A.8.4 SWOT Analysis
  • A.9 ELIN Motoren
    • A.9.1 Corporate Profile
    • A.9.2 Business Segment Analysis
    • A.9.3 Financial Analysis
    • A.9.4 SWOT Analysis
  • A.10 Enercon
    • A.10.1 Corporate Profile
    • A.10.2 Business Segment Analysis
    • A.10.3 Financial Analysis
    • A.10.4 SWOT Analysis
  • A.11 E.ON SE
    • A.11.1 Corporate Profile
    • A.11.2 Business Segment Analysis
    • A.11.3 Financial Analysis
    • A.11.4 SWOT Analysis
  • A.12 Futuren SA
    • A.12.1 Corporate Profile
    • A.12.2 Business Segment Analysis
    • A.12.3 Financial Analysis
    • A.12.4 SWOT Analysis
  • A.13 Gamesa Corporacion Tecnologica SA
    • A.13.1 Corporate Profile
    • A.13.2 Business Segment Analysis
    • A.13.3 Financial Analysis
    • A.13.4 SWOT Analysis
  • A.14 General Electric Company
    • A.14.1 Corporate Profile
    • A.14.2 Business Segment Analysis
    • A.14.3 Financial Analysis
    • A.14.4 SWOT Analysis
  • A.15 Hitachi
    • A.15.1 Corporate Profile
    • A.15.2 Business Segment Analysis
    • A.15.3 Financial Analysis
    • A.15.4 SWOT Analysis
  • A.16 Iberdrola SA
    • A.16.1 Corporate Profile
    • A.16.2 Business Segment Analysis
    • A.16.3 Financial Analysis
    • A.16.4 SWOT Analysis
  • A.17 LM Wind Power
    • A.17.1 Corporate Profile
    • A.17.2 Business Segment Analysis
    • A.17.3 Financial Analysis
    • A.17.4 SWOT Analysis
  • A.18 NextEra Energy, Inc.
    • A.18.1 Corporate Profile
    • A.18.2 Business Segment Analysis
    • A.18.3 Financial Analysis
    • A.18.4 SWOT Analysis
  • A.19 Nordex SE
    • A.19.1 Corporate Profile
    • A.19.2 Business Segment Analysis
    • A.19.3 Financial Analysis
    • A.19.4 SWOT Analysis
  • A.20 RWE AG
    • A.20.1 Corporate Profile
    • A.20.2 Business Segment Analysis
    • A.20.3 Financial Analysis
    • A.20.4 SWOT Analysis
  • A.21 Senvion SE
    • A.21.1 Corporate Profile
    • A.21.2 Business Segment Analysis
    • A.21.3 Financial Analysis
    • A.21.4 SWOT Analysis
  • A.22 Siemens AG
    • A.22.1 Corporate Profile
    • A.22.2 Business Segment Analysis
    • A.22.3 Financial Analysis
    • A.22.4 SWOT Analysis
  • A.23 Sinovel Wind Group Company Limited
    • A.23.1 Corporate Profile
    • A.23.2 Business Segment Analysis
    • A.23.3 Financial Analysis
    • A.23.4 SWOT Analysis
  • A.24 Suzlon Energy Limited
    • A.24.1 Corporate Profile
    • A.24.2 Business Segment Analysis
    • A.24.3 Financial Analysis
    • A.24.4 SWOT Analysis
  • A.25 Vattenfall AB
    • A.25.1 Corporate Profile
    • A.25.2 Business Segment Analysis
    • A.25.3 Financial Analysis
    • A.25.4 SWOT Analysis
  • A.26 Vestas Wind Systems A/S
    • A.26.1 Corporate Profile
    • A.26.2 Business Segment Analysis
    • A.26.3 Financial Analysis
    • A.26.4 SWOT Analysis
  • A.27 Windflow Technology Limited
    • A.27.1 Corporate Profile
    • A.27.2 Business Segment Analysis
    • A.27.3 Financial Analysis
    • A.27.4 SWOT Analysis
  • A.28 Winergy AG
    • A.28.1 Corporate Profile
    • A.28.2 Business Segment Analysis
    • A.28.3 Financial Analysis
    • A.28.4 SWOT Analysis
  • A.29 Bosch Rexroth
  • A.30 Centrica Plc
  • A.31 China Datang Corporation Renewable Power Co., Limited
  • A.32 China High Speed Transmission Equipment Group
  • A.33 China Longyuan Power Group Corporation Limited
  • A.34 CSIC (Chongqing) Haizhuang Windpower Equipment Co., Ltd. (CSIC)
  • A.35 Dewind Company
  • A.36 Direct Energie SA
  • A.37 Emergya Wind Technologies B.V.
  • A.38 Eneco Holding NV
  • A.39 Envision Energy
  • A.40 Euros GmbH
  • A.41 Guodian United Power Technology Co., Ltd.
  • A.42 Hindustan Zinc Limited
  • A.43 Huadian Fuxin Energy Corporation Limited
  • A.44 Huaneng Renewables Corporation Limited
  • A.45 Inox Wind
  • A.46 Ishibashi Manufacturing Co., Ltd.
  • A.47 Lagerwey Wind BV
  • A.48 Leitwind
  • A.49 Leroy-Somer Holding
  • A.50 Lianyungang Zhongfu Lianzhong Composites Group Co., Ltd.
  • A.51 Moventas Santasalo Oy
  • A.52 Northern Power Systems
  • A.53 Regen Powertech
  • A.54 Renk AG
  • A.55 Scottish and Southern Energy Plc
  • A.56 STX Windpower BV
  • A.57 Tata Power Company Limited
  • A.58 Vensys Energy
  • A.59 Vergnet SA
  • A.60 XEMC Windpower
  • A.61 Xinjiang Goldwind Science & Tech Co Ltd
  • A.62 Yongji Xinshisu Electric Equipment Co., Ltd
  • A.63 ZF Wind Power Antwerpen

Section 6: Conclusion

  • A. Glossary of Terms
  • B. Research Methodology

List of Figures

  • Figure 1: Aerodynamics of Wind Power
  • Figure 2: Components in a Simplified Wind Turbine
  • Figure 3: Airborne Wind Generator
  • Figure 4: Turbine Diameter Growth with Time
  • Figure 5: Growth in Size of Commercial Wind Turbine Designs
  • Figure 6: Historical Development of the Average Wind Turbine Size Sold in Different Countries (in KW)
  • Figure 7: Increase in Turbine Prices from 2012 to 2014
  • Figure 8: Top 10 Cumulative Capacity as of Dec 2014
  • Figure 9: Top 10 New Installed Capacity Jan-Dec 2014
  • Figure 10: Global Annual Installed Wind Capacity 1997-2014
  • Figure 11: Global Cumulative Installed Wind Capacity 1997-2014
  • Figure 12: Annual Installed Capacity by Region 2006-2014
  • Figure 13: Installed Capacity of Wind Power Worldwide (in MW), 2001-2020
  • Figure 14: Global Wind Power Generation (in GWh), 2001-2020
  • Figure 15: Global Wind Energy Industry Segmentation by Installed Capacity (%), 2014 & 2020
  • Figure 16: Segmentation by Installed Capacity in the Global Wind Energy Industry (%), 2014
  • Figure 17: Global Electricity Generation from Wind Power (in TWh), 2002-2020
  • Figure 18: Global Share by Regions of Electricity Generated from Wind Power (%), 2014 & 2020
  • Figure 19: Global Share by Countries of Electricity Generated from Wind Power (%), 2014 & 2020
  • Figure 20: Global Share by Segments of Electricity Generated from Wind Power (%), 2014 & 2020
  • Figure 21: Levelized Cost of Generating Wind Energy in Major Countries ($/kWh), 2014
  • Figure 22: Investment in the Global Wind Power Industry (in USD Billion), 2013-2020
  • Figure 23: Total Installed Wind Capacity 1997-2020 (MW)
  • Figure 24: Components of a Wind Turbine
  • Figure 25: Global Annual Wind Power Installations (in GW), 2006-2015
  • Figure 26: Installed Capacity of Wind Turbines Globally (in MW), 2001-2020
  • Figure 27: Global Turbine Market Size (in USD Billion) & Average Turbine Cost (in USD per kW), 2006-2015
  • Figure 28: Value of the Global Wind Turbine Market (in USD Million), 2005-2015
  • Figure 29: Average Capacity of a Wind Turbine, Offshore and Onshore Turbines (in MW), 2006-2020
  • Figure 30: Wind Turbine Installations Worldwide by Regions (in MW), 2005-2020
  • Figure 31: Major Players in the Global Turbine Industry & their Market Share (%), 2014
  • Figure 32: Yearly Variation of Market Shares of Major Wine Turbine Suppliers (%), 2007-2014
  • Figure 33: Cost of a Wind Turbine versus Global Wind Turbine Market Size (in USD per kW & USD Billion), 2006-2015
  • Figure 34: Wind Turbine Installed Capacity in Asia Pacific (in MW), 2002-2020
  • Figure 35: Wind Turbine Installed Capacity in Asia Pacific by Countries (in MW), 2002-2020
  • Figure 36: Factors Driving the Chinese Wind Turbine Market
  • Figure 37: Wind Turbine Installed Capacity in China (in MW), 2002-2020
  • Figure 38: Value of the Wind Turbine Market in China (in USD Million), 2005-2015
  • Figure 39: Turbine Sizes and Power Range of Turbines in China (%), 2014
  • Figure 40: Average Cost of Wind Turbines in China (in USD per kW), 2005-2015
  • Figure 41: Market Share of the Chinese Wind Turbine Industry (%), 2014
  • Figure 42: Wind Energy Installed by States in India (in MW)
  • Figure 43: Wind Turbine Installed Capacity in India (in MW), 2002-2020
  • Figure 44: Value of the Wind Turbine Market in India (in USD Million), 2005-2015
  • Figure 45: Turbine Sizes and Power Range of Turbines in India (%), 2014
  • Figure 46: Average Cost of Wind Turbines in India (in USD per kW), 2005-2015
  • Figure 47: Market Share of the Indian Wind Turbine Industry (%), 2014
  • Figure 48: Installed Capacity of Wind Turbines in Europe (in MW), 2002-2020
  • Figure 49: Wind Turbine Installations in Europe by Country (in MW), 2002-2020
  • Figure 50: Wind Turbine Installed Capacity in France (in MW), 2002-2020
  • Figure 51: Value of the Wind Turbine Market in France (in USD Million), 2005-2015
  • Figure 52: Turbine Sizes and Power Range of Turbines in France (%), 2014
  • Figure 53: Average Cost of Wind Turbines in France (in USD per kW), 2005-2015
  • Figure 54: Feed-in-Tariffs for Different Renewable Energy Technologies in France: A Comparison Chart
  • Figure 55: Market Share of the French Wind Turbine Industry (%), 2014
  • Figure 56: Wind Turbine Installed Capacity in Germany (in MW), 2002-2020
  • Figure 57: Value of the Wind Turbine Market in Germany (in USD Million), 2005-2015
  • Figure 58: Turbine Sizes and Power Range of Turbines in Germany (%), 2014
  • Figure 59: Average Cost of Wind Turbines in Germany (in USD per kW), 2005-2015
  • Figure 60: Market Share of the German Wind Turbine Industry (%), 2014
  • Figure 61: Wind Turbine Installed Capacity in Italy (in MW), 2002-2020
  • Figure 62: Value of the Wind Turbine Market in Italy (in USD Million), 2005-2015
  • Figure 63: Turbine Sizes and Power Range of Turbines in Italy (%), 2014
  • Figure 64: Average Cost of Wind Turbines in Italy (in USD per kW), 2005-2015
  • Figure 65: Market Share of the Italian Wind Turbine Industry (%), 2014
  • Figure 66: Wind Turbine Installed Capacity in Spain (in MW), 2002-2020
  • Figure 67: Value of the Wind Turbine Market in Spain (in USD Million), 2005-2015
  • Figure 68: Turbine Sizes and Power Range of Turbines in Spain (%), 2014
  • Figure 69: Average Cost of Wind Turbines in Spain (in USD per kW), 2005-2015
  • Figure 70: Market Share of the Spanish Wind Turbine Industry (%), 2014
  • Figure 71: Wind Turbine Installed Capacity in North America (in MW), 2002-2020
  • Figure 72: Wind Turbine Installed Capacity & Market Share in North America by Country (%), 2002-2020
  • Figure 73: Factors Driving the Canadian Wind Turbine Industry
  • Figure 74: Wind Turbine Installed Capacity in Canada (in MW), 2002-2020
  • Figure 75: Value of the Wind Turbine Market in Canada (in USD Million), 2005-2015
  • Figure 76: Turbine Sizes and Power Range of Turbines in Canada (%), 2014
  • Figure 77: Average Cost of Wind Turbines in Canada (in USD per kW), 2005-2015
  • Figure 78: Market Share of the Canadian Wind Turbine Industry (%), 2014
  • Figure 79: Wind Turbine Installed Capacity in the United States (in MW), 2002-2020
  • Figure 80: Value of the Wind Turbine Market in the United States (in USD Million), 2005-2015
  • Figure 81: Turbine Sizes and Power Range of Turbines in the United States (%), 2014
  • Figure 82: Average Cost of Wind Turbines in the United States (in USD per kW), 2005-2015
  • Figure 83: Market Share of the US Wind Turbine Industry (%), 2014
  • Figure 84: Looking at the Vertical Axis Wind Turbine (VAWT)
  • Figure 85: Looking at the Horizontal Axis Wind Turbine (HAWT)
  • Figure 86: Off-grid Small Wind System
  • Figure 87: Grid Connected Small Wind System
  • Figure 88: Hybrid Electric System
  • Figure 89: Installed Capacity (both Cumulative & Annual) of the Global Small Wind Turbine Market (in MW), 2010-2020
  • Figure 90: Power Generated from Small Wind Turbines Worldwide (in GWh), 2010-2020
  • Figure 91: Market Share Analysis of the Global Small Wind Turbine Industry (%), 2014
  • Figure 92: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in Canada (in MW), 2010-2020
  • Figure 93: Power Generated from Small Wind Turbines in Canada (in GWh), 2010-2020
  • Figure 94: Average Cost of Small Wind Turbines in Canada (in USD per Watt), 2010-2020
  • Figure 95: Revenues from the Small Wind Turbine Market in Canada (in USD Million), 2010-2020
  • Figure 96: Small Wind Turbine Market in Canada Segmented by Size & Power Range (%), 2014
  • Figure 97: Installed Capacity of the Small Wind Turbine Market in China (in MW), 2010-2020
  • Figure 98: Installed Capacity of the Small Wind Turbine Market in Denmark (in MW), 2010-2020
  • Figure 99: Installed Capacity of the Small Wind Turbine Market in Germany (in MW), 2010-2020
  • Figure 100: Comparing Tariffs in EEG 2004 & EEG 2009 in Germany
  • Figure 101: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in India (in MW), 2010-2020
  • Figure 102: Installed Capacity of the Small Wind Turbine Market in Spain (in MW), 2010-2020
  • Figure 103: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in the United Kingdom (in MW), 2010-2020
  • Figure 104: Power Generated from Small Wind Turbines in the United Kingdom (in GWh), 2010-2020
  • Figure 105: Average Cost of Small Wind Turbines in the United Kingdom (in USD per Watt), 2010-2020
  • Figure 106: Revenues from the Small Wind Turbine Market in the United Kingdom (in USD Million), 2010-2020
  • Figure 107: Small Wind Turbine Market in the UK Segmented by Size & Power Range (%), 2014
  • Figure 108: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in United States (in MW), 2010-2020
  • Figure 109: Power Generated from Small Wind Turbines in the US (in GWh), 2010-2020
  • Figure 110: Average Cost of Small Wind Turbines in the United States (in USD per Watt), 2010-2020
  • Figure 111: Revenues from the Small Wind Turbine Market in the United States (in USD Million), 2010-2020
  • Figure 112: Small Wind Turbine Market in the US Segmented by Size & Power Range (%), 2014
  • Figure 113: Parts of the Wind Power Value Chain
  • Figure 114: Major Activities of the Global Wind Turbine Value Chain
  • Figure 115: View from Top of a Liberty Quantum Drive 2.5 MW Rated Power Wind Turbine Gearbox
  • Figure 116: Size of the Wind Turbine Gearbox Market (in USD Billion), 2006-2020
  • Figure 117: Yearly Production of Wind Turbine Gearboxes (in GW), 2006-2014
  • Figure 118: Cost of the Wind Turbine Gearboxes (in USD per kW), 2006-2020
  • Figure 119: Major Players in the Global Wind Turbine Gearbox Market & their Market Share (%), 2014
  • Figure 120: Major Players in the Global Wind Turbine Direct Drive Gearbox Market & their Market Share (%), 2014
  • Figure 121: Global Production of Wind Turbine Generators (in GW), 2006-2014
  • Figure 122: Size of the Wind Turbine Generator Market (in USD Billion), 2006-2020
  • Figure 123: Cost of the Wind Turbine Generators (in USD per kW), 2006-2020
  • Figure 124: Major Players in the Global Wind Turbine Generator Market & their Market Share (%), 2014
  • Figure 125: Size of the Wind Turbine Rotor Blade Market (in USD Billion), 2006-2020
  • Figure 126: Yearly Production of Wind Turbine Rotor Blades (in MW), 2006-2014
  • Figure 127: Independent Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Figure 128: In-house Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Figure 129: Cost Breakup of Wind Turbine Rotor Blades (%), 2014
  • Figure 130: Price Range of Wind Turbine Rotor Blades (in USD per kW), 2006-2020
  • Figure 131: Major Independent Manufacturers of Wind Turbine Rotor Blades & their Market Share (%), 2014
  • Figure 132: Production Sites of Independent Manufacturers of Wind Turbine Rotor Blades
  • Figure 133: Major In-house Manufacturers of Wind Turbine Rotor Blades & their Market Share (%), 2014
  • Figure 134: Guyed Wind Tower
  • Figure 135: Guyed Tilt-Up Wind Tower
  • Figure 136: Freestanding Lattice Wind Tower
  • Figure 137: Freestanding Tubular Wind Tower
  • Figure 138: Floating Wind Tower
  • Figure 139: Size of the Wind Tower Market (in USD Billion), 2006-2020
  • Figure 140: Cost of the Wind Turbine Towers (in USD per kW), 2006-2020
  • Figure 141: REDULUS GPV Gearbox by Bosch Rexroth
  • Figure 142: Gearbox REDULUS GPV-D by Bosch Rexroth

List of Tables

  • Table 1: Four Optional Installation Systems for Offshore Wind Power
  • Table 2: Installed Capacity of Wind Power Worldwide (in MW), 2001-2020
  • Table 3: Global Wind Power Generation (in GWh), 2001-2020
  • Table 4: Global Electricity Generation from Wind Power (in TWh), 2002-2020
  • Table 5: Levelized Cost of Generating Wind Energy in Major Countries ($/kWh), 2014
  • Table 6: Investment in the Global Wind Power Industry (in USD Billion), 2013-2020
  • Table 7: Large-scale Wind Turbines Newly Developed in Europe
  • Table 8: Power Range of Global Newly-installed Wind Turbines in 2010
  • Table 9: Technical Specifications of Commonly Used Wind Turbine Models (Range of >2.5 MW), by Manufacturers
  • Table 10: Technical Specifications of Commonly Used Wind Turbine Models (Range of 1.01-1.5 MW), by Manufacturers
  • Table 11: Technical Specifications of Commonly Used Wind Turbine Models (Range of 1.51-2 MW), by Manufacturers
  • Table 12: Technical Specifications of Commonly Used Wind Turbine Models (Range of 2.01-2.5 MW), by Manufacturers
  • Table 13: Global Annual Wind Power Installations (in GW), 2006-2015
  • Table 14: Installed Capacity of Wind Turbines Globally (in MW), 2001-2020
  • Table 15: Global Turbine Market Size (in USD Billion) & Average Turbine Cost (in USD per kW), 2006-2015
  • Table 16: Value of the Global Wind Turbine Market (in USD Million), 2005-2015
  • Table 17: Average Capacity of a Wind Turbine, Offshore and Onshore Turbines (in MW), 2006-2020
  • Table 18: Wind Turbine Installations Worldwide by Regions (in MW), 2005-2020
  • Table 19: Yearly Variation of Market Shares of Major Wine Turbine Suppliers (%), 2007-2014
  • Table 20: Cost Analysis of a Wind Farm
  • Table 21: Cost Breakdown by Components of a Wind Turbine
  • Table 22: Cost of a Wind Turbine versus Global Wind Turbine Market Size (in USD per kW & USD Billion), 2006-2015
  • Table 23: Favorable Policies Supporting Wind Turbine Market Growth Worldwide
  • Table 24: Wind Turbine Installed Capacity in Asia Pacific (in MW), 2002-2020
  • Table 25: Wind Turbine Installed Capacity in Asia Pacific by Countries (in MW), 2002-2020
  • Table 26: Wind Turbine Installed Capacity in China (in MW), 2002-2020
  • Table 27: Value of the Wind Turbine Market in China (in USD Million), 2005-2015
  • Table 28: Average Cost of Wind Turbines in China (in USD per kW), 2005-2015
  • Table 29: Major Renewable Energy-related Laws, Acts & Policies in China
  • Table 30: Major Regulations under the Chinese Renewable Energy Law
  • Table 31: Policies related to Wind Energy in China
  • Table 32: Province-specific Incentive Schemes for Wind Energy in China
  • Table 33: Wind Turbine Installed Capacity in India (in MW), 2002-2020
  • Table 34: Value of the Wind Turbine Market in India (in USD Million), 2005-2015
  • Table 35: Average Cost of Wind Turbines in India (in USD per kW), 2005-2015
  • Table 36: Favorable Regulations for Wind Power in Europe
  • Table 37: Installed Capacity of Wind Turbines in Europe (in MW), 2002-2020
  • Table 38: Wind Turbine Installations in Europe by Country (in MW), 2002-2020
  • Table 39: Wind Turbine Installed Capacity in France (in MW), 2002-2020
  • Table 40: Value of the Wind Turbine Market in France (in USD Million), 2005-2015
  • Table 41: Average Cost of Wind Turbines in France (in USD per kW), 2005-2015
  • Table 42: Feed-in-Tariffs for Renewable Energy Sources in France
  • Table 43: Wind Turbine Installed Capacity in Germany (in MW), 2002-2020
  • Table 44: Value of the Wind Turbine Market in Germany (in USD Million), 2005-2015
  • Table 45: Average Cost of Wind Turbines in Germany (in USD per kW), 2005-2015
  • Table 46: Wind Turbine Installed Capacity in Italy (in MW), 2002-2020
  • Table 47: Value of the Wind Turbine Market in Italy (in USD Million), 2005-2015
  • Table 48: Average Cost of Wind Turbines in Italy (in USD per kW), 2005-2015
  • Table 49: Feed-in-Tariff System in Italy
  • Table 50: Wind Turbine Installed Capacity in Spain (in MW), 2002-2020
  • Table 51: Value of the Wind Turbine Market in Spain (in USD Million), 2005-2015
  • Table 52: Average Cost of Wind Turbines in Spain (in USD per kW), 2005-2015
  • Table 53: Wind Turbine Installed Capacity in North America (in MW), 2002-2020
  • Table 54: Wind Turbine Installed Capacity & Market Share in North America by Country (%), 2002-2020
  • Table 55: Wind Turbine Installed Capacity in Canada (in MW), 2002-2020
  • Table 56: Value of the Wind Turbine Market in Canada (in USD Million), 2005-2015
  • Table 57: Average Cost of Wind Turbines in Canada (in USD per kW), 2005-2015
  • Table 58: Funding for the ecoENERGY for Aboriginal and Northern Communities Program in Canada
  • Table 59: Green Power - Provincial Targets and Policies in Canada
  • Table 60: Wind Turbine Installed Capacity in the United States (in MW), 2002-2020
  • Table 61: Value of the Wind Turbine Market in the United States (in USD Million), 2005-2015
  • Table 62: Average Cost of Wind Turbines in the United States (in USD per kW), 2005-2015
  • Table 63: State Renewables Portfolio Standards and Policy Incentives in the US
  • Table 64: Renewable Energy Regulatory Framework in Select States in the US
  • Table 65: Product Information for Small Wind Turbine Model AIR X
  • Table 66: Product Information for Small Wind Turbine Model AOC 15/50
  • Table 67: Product Information for Small Wind Turbine Model Bergey Excel-S 10.0 kW
  • Table 68: Product Information for Small Wind Turbine Model Bergey XL.1
  • Table 69: Product Information for Small Wind Turbine Model EW 50
  • Table 70: Product Information for Small Wind Turbine Model NorthWind 100
  • Table 71: Product Information for Small Wind Turbine Model PROVEN 3.2
  • Table 72: Product Information for Small Wind Turbine Model R9000
  • Table 73: Product Information for Small Wind Turbine Model Skystream 3.7
  • Table 74: Comparing the Popular Small Wind Turbines
  • Table 75: Installed Capacity (both Cumulative & Annual) of the Global Small Wind Turbine Market (in MW), 2010-2020
  • Table 76: Power Generated from Small Wind Turbines Worldwide (in GWh), 2010-2020
  • Table 77: Cost Analysis of Building a Wind Turbine
  • Table 78: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in Canada (in MW), 2010-2020
  • Table 79: Power Generated from Small Wind Turbines in Canada (in GWh), 2010-2020
  • Table 80: Average Cost of Small Wind Turbines in Canada (in USD per Watt), 2010-2020
  • Table 81: Revenues from the Small Wind Turbine Market in Canada (in USD Million), 2010-2020
  • Table 82: Installed Capacity of the Small Wind Turbine Market in China (in MW), 2010-2020
  • Table 83: Installed Capacity of the Small Wind Turbine Market in Denmark (in MW), 2010-2020
  • Table 84: Installed Capacity of the Small Wind Turbine Market in Germany (in MW), 2010-2020
  • Table 85: EEG 2009 in Germany (in €ct/kWh)
  • Table 86: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in India (in MW), 2010-2020
  • Table 87: Installed Capacity of the Small Wind Turbine Market in Spain (in MW), 2010-2020
  • Table 88: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in the United Kingdom (in MW), 2010-2020
  • Table 89: Power Generated from Small Wind Turbines in the United Kingdom (in GWh), 2010-2020
  • Table 90: Average Cost of Small Wind Turbines in the United Kingdom (in USD per Watt), 2010-2020
  • Table 91: Revenues from the Small Wind Turbine Market in the United Kingdom (in USD Million), 2010-2020
  • Table 92: FITs in the UK for Wind Energy
  • Table 93: Overview of Proposed Bands under The Renewables Obligation Order 2009, UK
  • Table 94: Grants Available to Householders under the Low Carbon Buildings Program
  • Table 95: Grant Validity Periods under the Low Carbon Buildings Program
  • Table 96: Installed Capacity (both Cumulative & Annual) of the Small Wind Turbine Market in United States (in MW), 2010-2020
  • Table 97: Power Generated from Small Wind Turbines in the US (in GWh), 2010-2020
  • Table 98: Average Cost of Small Wind Turbines in the United States (in USD per Watt), 2010-2020
  • Table 99: Revenues from the Small Wind Turbine Market in the United States (in USD Million), 2010-2020
  • Table 100: Incentive Levels for Wind Program in Nevada (Historical - 2010-2011)
  • Table 101: Size of the Wind Turbine Gearbox Market (in USD Billion), 2006-2020
  • Table 102: Yearly Production of Wind Turbine Gearboxes (in GW), 2006-2014
  • Table 103: Cost of the Wind Turbine Gearboxes (in USD per kW), 2006-2020
  • Table 104: Major Players in the Global Wind Turbine Gearbox Market & their Market Share (%), 2014
  • Table 105: Direct Drive Wind Turbine Gearbox Manufacturers
  • Table 106: Global Production of Wind Turbine Generators (in GW), 2006-2014
  • Table 107: Size of the Wind Turbine Generator Market (in USD Billion), 2006-2020
  • Table 108: Cost of the Wind Turbine Generators (in USD per kW), 2006-2020
  • Table 109: Major Players in the Global Wind Turbine Generator Market & their Market Share (%), 2014
  • Table 110: Size of the Wind Turbine Rotor Blade Market (in USD Billion), 2006-2020
  • Table 111: Yearly Production of Wind Turbine Rotor Blades (in MW), 2006-2014
  • Table 112: Independent Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Table 113: In-house Production Statistics of Wind Turbine Rotor Blades by Manufacturers (in MW), 2007-2014
  • Table 114: Price Range of Wind Turbine Rotor Blades (in USD per kW), 2006-2020
  • Table 115: Comparing Wind Turbine Rotor Blade Products of Independent Manufacturers, 2014
  • Table 116: Size of the Wind Tower Market (in USD Billion), 2006-2020
  • Table 117: Cost of the Wind Turbine Towers (in USD per kW), 2006-2020
  • Table 118: Leading Manufacturers of Wind Turbine Towers
  • Table 119: Leading Manufacturers of Wind Turbine Towers by Geographic Location
  • Table 120: Major Turbines Developed by Enercon
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