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世界の風力タービン市場の分析

Analyzing the Global Wind Turbine Market 2015

発行 Aruvian's R'search 商品コード 226123
出版日 ページ情報 英文 215 Pages
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世界の風力タービン市場の分析 Analyzing the Global Wind Turbine Market 2015
出版日: 2015年11月01日 ページ情報: 英文 215 Pages
概要

当レポートでは、全世界の風力発電用タービン市場について分析し、風力発電全体の技術・市場構造、風力タービンの基本的構造と技術的特質、最新の市場動向と今後の予測、サプライチェーンと主要企業のプロファイルといった情報を盛り込んでお届けします。

エグゼクティブ・サマリー

風力発電の概要

  • 風力エネルギー:クリーンで環境保護的なエネルギー
  • 風力エネルギーの沿革
  • 風力発電について
  • 風力タービンの稼働法
  • 風力発電の技術
  • 風力発電の市場
  • 風力発電の変動性の許容

風力タービン産業の概況

  • 風力発電の重要性
  • 風力タービン産業の発展
  • 市場概況
  • 世界の風力タービン産業
  • 世界の海上風力発電産業

風力タービン技術の概略

  • イントロダクション
  • 技術進歩の予想
  • 発電技術
  • 重量とコスト
  • 海上用風力タービンの技術

風力タービンの運用と整備

  • 風力タービンと風速
  • 風力タービンの可用性
  • 独立式/電力網接続式の小規模風力タービン

風力タービンに現在活用されている素材

  • 市場概況
  • 今後の部品開発

風力タービンの発電能力とサイズ

  • 概要
  • 小型風力発電システム
  • 大型風力発電タービン
  • 超大型風力タービンの発電能力
  • 小型風力タービン
  • 必要とされる風力タービンの台数

風力タービンの作動方法

  • 風力タービンの部品
  • 製造方法
  • 原材料
  • 近代的な風力タービンの構造
  • 近代的技術の設計促進要因

小型風力タービンの分析

  • 概要
  • 小型風力タービンの市場と用途
  • 商用SWT(小型風力タービン)の発展
  • 独立式での利用
  • 超小型システム
  • ハイブリッドシステム
  • 風力・ディーゼルシステム
  • 電力網接続式での利用
  • 市場の開発
  • 電力網接続型システム
  • 技術の傾向と近年の発展

市場の実体

  • 概要
  • 市場の主な傾向
  • 需要サイド
  • 海上発電市場
  • 既成市場での動向

世界の風力タービン市場に対する信用収縮の影響

風力タービンのコスト分析

  • 風力発電所のコスト分析
  • コストへの影響
  • 結論

風力タービンの市場機会

  • 主要国市場の動向(欧州・米国・中国・インド)
  • 風力発電技術の市場機会

産業動向の分析

  • 競争動向
  • 関税措置の分析(米国および諸外国)
  • グローバリゼーションの傾向
  • 風力タービンの主要顧客
  • 風力タービンの需要の影響要因

風力タービンのサプライチェーンの分析

  • 現状
  • 主な部品・素材の状況
  • 風力発電サプライチェーンにおけるOEM企業

各企業の戦略の分析

  • 概況
  • ブレードメーカー
  • ギアボックス・サプライヤー
  • 風力発電用タワーメーカー
  • 研究開発

市場の予測

  • 将来の展望
  • 今後の技術の傾向

主要企業情報

  • 世界の風力タービン発電機メーカー(全10社)
  • 世界のギアボックスメーカー(全15社)
  • 世界の発電機メーカー(全6社)
  • 世界のブレードメーカー(全4社r)

用語集

図表一覧

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目次

Wind generation has been growing at a healthy average globally over the last few years, triggered by the fact that more and more countries are realizing the value of wind energy as a low cost, clean source for electricity. This has helped create major new business opportunities for manufacturing and materials innovation in this sector. Driving the wind industry forward is political action in response to climate change.

For the last ten years global wind turbine sales have grown approximately by nearly 30% annually and wind power is now the world's fastest growing source of energy. For the next twenty years it is expected to expand at double-digit rates.

The global wind turbine market is dominated by a small number of original equipment manufacturers (OEMs), but market competition is increasing as new OEMs enter the industry. Manufacturers are developing the next generation of wind turbines in the US and Europe. Government support of markets in Europe, India, China and other emerging markets has been largely responsible for burgeoning sales, providing manufacturers with cash flow to conduct private development efforts. European manufacturers currently supply most of the world market for utility-scale wind turbines and therefore provide the majority of the private investment in research and development.

The report begins with an introduction to wind power and looks at wind power technology, electricity generation from wind and accommodating the variable nature of wind power.

We analyze the wind turbine industry through the importance of wind power, evolution of wind turbine industry, market overview, global wind power industry statistics, and an analysis of the global offshore wind power industry through a regional breakdown.

Analyzing the Global Wind Turbine Market also analyzes wind turbine technology through generation technology, weight and cost, offshore wind turbine technology and the expected evolution in wind turbine technology.

Operation and maintenance of wind turbines is analyzed in the report along with the materials used in current wind turbines. The report also looks at the power and size of wind turbines along with a look at small wind systems, large wind turbines, mega wind turbines as well as micro wind turbines.

Moving on, we analyze how a wind turbine works through an analysis of the components of wind turbines, production methods, architecture of a modern wind turbine and design drivers for modern wind turbine technology.

A section is dedicated to the analysis of small wind turbines that looks at markets and applications for small wind turbines, commercial small wind turbine technology, isolated applications, hybrid systems, grid-connected systems and applications, technology trends along with recent developments.

Global wind turbine industry market facts are analyzed along with key market trends, demand side statistics and other factors. The report also analyzes the impact of the credit crunch on the global wind turbine industry as well as a cost analysis of wind turbines.

Wind turbine market opportunities in Europe, United States, China and India are looked at in the report.

We also analyze the industry trends such as competitive trends, trend of globalization, factors affecting wind turbine demand, primary customers for wind turbines, etc.

An analysis of the wind turbine supply chain looks at the current situation and specific conclusions for key components and materials in the supply chain through blades, gearboxes, electric generators, large bearings, power converters, power transformers, castings and forgings. OEMs in the wind turbine supply chain are also analyzed in the report.

A forecast for the global wind turbine market and wind power industry through future technology trends and a region-wise forecast is included in the report.

An analysis of the leading industry players segmented by global manufacturers of wind turbine generators, global gear box makers, global generator makers and global wind turbine blade manufacturers is provided in this report. Some of the major players analyzed in the report include ABB Ltd., Acciona, Enercon, Nordex, Suzlon Energy, Vestas Wind Systems, Xinjiang Goldwind Science & Tech Co Ltd, amongst many others.

Table of Contents

A. Executive Summary

B. Introduction to Wind Power

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

C. Looking at the Wind Turbine Industry

  • C.1. Importance of Wind Power
  • C.2. Evolution of the Wind Turbine Industry
    • C.2.1. Technical Challenge of a Unique Technology
    • C.2.2. Aerodynamic Stall
    • C.2.3. Fatigue Cycles
    • C.2.4. Development of Commercial Technology
  • C.3. Market Overview
  • C.4. Global Wind Power Industry
  • C.5. Global Offshore Wind Power Industry
    • C.5.1. Overview
    • C.5.2. Asia
    • C.5.3. Europe
    • C.5.4. United States
    • C.5.5. Role of Utilities in Offshore Wind
    • C.5.6. Supply Challenges

D. Looking at the Wind Turbine Technology

  • D.1. Introduction
  • D.2. Expected Technology Evolution
  • D.3. Generation Technology
  • D.4. Weight and Cost
  • D.5. Offshore Wind Turbine Technology

E. Operation and Maintenance of Wind Turbines

  • E.1. Wind Turbines and Wind Speed
  • E.2. Wind Turbine Availability
  • E.3. Stand-alone and Grid-connected Small Wind Turbines

F. Materials Used in Current Wind Turbines

  • F.1. Market Overview
  • F.2. Future Component Development

G. Wind Turbines: Power and Size

  • G.1. Overview
  • G.2. Small Wind Systems
    • G.2.1. Home Average Needs & Wind Turbine Production
  • G.3. Large Wind Turbines
  • G.4. Mega Wind Turbines Power
  • G.5. Micro Wind Turbines
  • G.5. Number of Wind Turbines Required

H. How Does a Wind Turbine Work?

  • H.1. Components of Wind Turbines
    • H.1.1. Sub Components
  • H.2. Production Methods
  • H.3. Raw Materials
  • H.4. Architecture of a Modern Wind Turbine
  • H.5. Design Drivers for Modern Technology

I. Analysis of Small Wind Turbines

  • I.1. Overview
  • I.2. Markets and Applications for Small Wind Turbines
  • I.3. Evolution of Commercial SWT Technology
  • I.4. Isolated Applications
  • I.5. Very Small Systems
  • I.6. Hybrid Systems
  • I.7. Wind-Diesel Systems
  • I.8. Grid-Connected Applications
  • I.9. Market Development
  • I.10. Grid-Connected Systems
  • I.11. Technology Trends and Recent Developments

J. Market Facts

  • J.1. Overview
  • J.2. Key Market Trends
  • J.3. Demand Side
  • J.4. Offshore Market
  • J.5. Trends in Established Markets

K. Impact of the Credit Crunch on the Global Wind Turbine Industry

L. Wind Turbine Cost Analysis

  • L.1. Cost Analysis of a Wind Farm
  • L.2. Impacts on Cost
  • L.3. Conclusion

M. Wind Turbine Market Opportunities

  • M.1. Specific Markets
    • M.1.1. Europe
    • M.1.2. United States
    • M.1.3. China
    • M.1.4. India
  • M.2. Opportunities in Wind Technology

N. Analyzing Industry Trends

  • N.1. Competitive Trends
    • N.1.1. Market Players
    • N.1.2. Large Turbine Manufacturers
  • N.2. Looking at Tariff Measures
    • N.2.1. U.S. Tariff and Nontariff Measures
    • N.2.2. Foreign Tariff Measures
  • N.3. Trend of Globalization
  • N.4. Primary Customers for Wind Turbines
  • N.5. Factors Affecting Wind Turbine Demand

O. Analyzing the Wind Turbine Supply Chain

  • O.1. Current Situation
  • O.2. Specific Conclusions for Key Components and Materials in the Supply Chain
    • O.2.1. Blades
    • O.2.2. Gearboxes
    • O.2.3. Electric Generators
    • O.2.4. Large Bearings
    • O.2.5. Power Converters
    • O.2.6. Power Transformers
    • O.2.7. Castings
    • O.2.8. Forgings
  • O.3. OEM's in the Wind Turbine Supply Chain
    • O.3.1. Nacelle Components

P. Analyzing Strategy Profiles

  • P.1. Overview
  • P.2. Blade Manufacturers
  • P.3. Gearbox Suppliers
  • P.4. Tower Manufacturers
  • P.5. Research and Development

Q. Market Forecast

  • Q.1. Future Perspective
  • Q.2. Future Technology Trends
    • Q.2.1. Blade and Rotor Design
    • Q.2.2. Generator
    • Q.2.3. Manufacturing Specializations
    • Q.2.4. Concentration of Manufacturers
    • Q.2.5. Off-Grid
    • Q.2.6. Grid Connected

R. Leading Industry Players

  • R.1. Global Wind Turbine Generators
    • R.1.1. Acciona
    • R.1.2. Enercon
    • R.1.3. Gamesa Corporacion Tecnologica SA
    • R.1.4. General Electric Company
    • R.1.5. Nordex SE
    • R.1.6. RWE AG
    • R.1.7. Siemens
    • R.1.8. Suzlon Energy Limited
    • R.1.9. Vestas Wind Systems A/S
    • R.1.10. Xinjiang Goldwind Science & Tech Co Ltd
  • R.2. Global Gear Box Makers
    • R.2.1. Bosch Rexroth
    • R.2.2. China High Speed Transmission Equipment Group
    • R.2.3. CSIC (Chongqing) Haizhuang Windpower Equipment Co., Ltd. (CSIC)
    • R.2.4. Emergya Wind Technologies B.V.
    • R.2.5. Guodian United Power Technology Co., Ltd.
    • R.2.6. Inox Wind
    • R.2.7. Ishibashi Manufacturing Co., Ltd.
    • R.2.8. Lagerwey Wind BV
    • R.2.9. Leitwind
    • R.2.10. Moventas Santasalo Oy
    • R.2.11. Regen Powertech
    • R.2.12. Renk AG
    • R.2.13. STX Windpower BV
    • R.2.14. Vensys Energy
    • R.2.15. XEMC Windpower
  • R.3. Global Generator Makers
    • R.3.1. ABB
    • R.3.2. ELIN Motoren
    • R.3.3. Leroy-Somer Holding
    • R.3.4. Shanghai Electric
    • R.3.5. Winergy AG
    • R.3.6. Yongji Xinshisu Electric Equipment Co., Ltd
  • R.4. Global Blade Manufacturers
    • R.4.1. Euros GmbH
    • R.4.2. Lianyungang Zhongfu Lianzhong Composites Group Co., Ltd.
    • R.4.3. LM Wind Power
    • R.4.4. Senvion SE

T. Glossary of Terms

List of Figures

  • Figure 1: Top 10 Cumulative Capacity as of Dec 2014
  • Figure 2: Top 10 New Installed Capacity Jan-Dec 2014
  • Figure 3: Global Annual Installed Wind Capacity 1997-2014
  • Figure 4: Global Cumulative Installed Wind Capacity 1997-2014
  • Figure 5: Annual Installed Capacity by Region 2006-2014
  • Figure 6: Annual Offshore Wind Capacity Installations in Europe in 2014 (in MW)
  • Figure 7: Share of Wind Turbine Manufacturers' at end of 2014 (in MW)
  • Figure 8: Global Offshore Installed Base Market Share 2014
  • Figure 9: Growth in Size of Commercial Wind Turbine Designs
  • Figure 10: Historical Development of Wind Turbines by Size
  • Figure 11: Major Components of a Wine Turbine
  • Figure 12: Wind Turbine Technology Evolution
  • Figure 13: Factors Driving Evolution & Innovation in Wind Turbine Design
  • Figure 14: Wind Speed Scale
  • Figure 15: Typical Power Curve of a Wind Turbine
  • Figure 16: How a Wind Turbine Comes Together
  • Figure 17: Wind Turbine Major Components
  • Figure 18: Schematic of Wind Turbine Major Subcomponents
  • Figure 19: Typical Nacelle Layout of a Modern Wind Turbine
  • Figure 20: Ecotecnia 100 Nacelle Layout
  • Figure 21: Vestas V90 Nacelle Layout
  • Figure 22: Global Wind Turbine Market Share, by OEM, 2014
  • Figure 23: Global Wind Energy in MW of Added Capacity per Year
  • Figure 24: Global Turbine Manufacturing Trends Overview by Region
  • Figure 25: Share of New Wind Power Installations in the EU (in MW), 2014
  • Figure 26: Market Share of Large Turbine Manufacturers
  • Figure 27: Wind Power Turbine Value Chain
  • Figure 28: Wind Power Industry Value Chain Segmentation
  • Figure 29: Wind Turbine Production Process
  • Figure 30: Wind Turbine Component Supply Overview
  • Figure 31: Vertical Integration, Blade Manufacturing
  • Figure 32: Vertical Integration, Gearbox and Generator Manufacturing
  • Figure 33: Vertical Integration, Tower Manufacturing
  • Figure 34: Total Installed Wind Capacity 1997-2020 (MW)
  • Figure 35: REDULUS GPV Gearbox by Bosch Rexroth
  • Figure 36: Gearbox REDULUS GPV-D by Bosch Rexroth

List of Tables

  • Table 1: Emissions Factors of Gas, Coal and Wind Technologies (lb/MWh)
  • Table 2: Upcoming Offshore Wind Power Projects in Japan
  • Table 3: Wind Farms and Turbines Connected to the Grid at end of 2014 in Europe
  • Table 4: Turbine Component Weight and Cost
  • Table 5: Percentage of Materials Used in Current Wind Turbine Component
  • Table 6: Wind Turbine Raw Materials, % by Weight, including Blades & Towers
  • Table 7: Classification of Small Wind Turbines
  • Table 8: Applications for Small Wind Turbines
  • Table 9: Cost Analysis of a Wind Farm
  • Table 10: Cost Breakdown by Components of a Wind Turbine
  • Table 11: Large-scale Wind Turbines Newly Developed in Europe
  • Table 12: Power Range of Global Newly-installed Wind Turbines in 2010
  • Table 13: Wind-turbines & Components: Harmonized Tariff Schedule Subheading, Description & Column 1 Rate of Duty as of January 31, 2009
  • Table 14: Applied Tariff Rates, Wind-Powered Generating Sets, 2008 unless Otherwise Noted
  • Table 15: Wind Turbine Bound and Applied Tariff Rates, by Income Level, Percent
  • Table 16: Global Production Locations of Major Turbine Manufacturers
  • Table 17: Major Turbines Developed by Enercon
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