导语

  

内容提要

  

    风能作为一种品质优良的可再生清洁能源，其规模利用对于保障我国能源安全、促进发展方式转变、改善大气环境质量和应对全球气候变化具有极其重要的战略意义。本书围绕风能在经济社会发展中的地位和作用、风能发展的现状与展望、中国风能可持续发展规划与路径、中国风能可持续发展的对策与措施、开拓风能可持续发展新空间等方面，指明了我国风能可持续发展之路。

1  Energy Utilization and Global Economic and Social Development
  1.1  Challenges in Global Economic and Social Development
    1.1.1  Climate Change
    1.1.2  Energy Security
    1.1.3  Environmental Pollution
  1.2  Worldwide Actions
    1.2.1  Climate Change Mitigation
    1.2.2  Energy Supply Security
    1.2.3  Climate Change Mitigation
  1.3  Position and Roles of Wind Power
    1.3.1  Improving Structure of Energy Utilization
    1.3.2  Providing Employment Opportunity
    1.3.3  Coping with Climate Change
  References
2  Overview of Worldwide Wind Power Industry
  2.1  Development of Global Wind Power Industry
    2.1.1  Global Wind Energy Resources
    2.1.2  Present Status of Global Wind Power Industry
    2.1.3  Perspective
  2.2  Progresses in China's Wind Power Industry
    2.2.1  China's Wind Energy Resource
    2.2.2  Present Status of China's Wind Power Industry
    2.2.3  Perspective
  References
3  Vision of China's Wind Power Industry
  3.1  China's Wind Energy Sustainable Development Plan
    3.1.1  China's Economic and Social Development Goals
    3.1.2  China's Energy Demand and Structure Analysis
    3.1.3  China's Electricity Demand and Structure Analysis
    3.1.4  China's Wind Power Industry Development Goals
  3.2  China's Major Wind Farms Layout
    3.2.1  Onshore Wind Farms
    3.2.2  Distributed Onshore Wind Power Systems
    3.2.3  Marine Wind Farms
    3.2.4  Hybrid Wind Farms Based on Multi-energy Complement
  References
4  Roadmap for Sustainable Development of China's Wind Power Industry
  4.1  Technical Route of China's Wind Power Industry
    4.1.1  Overview of China's Wind Power Techniques
    4.1.2  Trends of Wind Power Technology
    4.1.3  Pivotal Techniques for Sustainable Development of China's Wind Power Industry
  4.2  China's Wind Power Industry System
    4.2.1  History of China's Wind Power Industry
    4.2.2  Composition of China's Wind Energy Industry System
    4.2.3  Development Scheme of Wind Energy Industry System
  4.3  Sustainable Development Market Mechanism
    4.3.1  Wind Energy Market Formation and Development
    4.3.2  Existing Market Mechanism and Effect Analysis
    4.3.3  Discussion on a Sustainable Development Market Mechanism
  References
5  Policy and Measures for Sustainable Development of China's Wind Power Industry
  5.1  Overall Planning of Top-Level Design
    5.1.1  Status Quo Analysis
    5.1.2  Existing Issues
    5.1.3  Countermeasures and Suggestions
  5.2  Perfecting Policy System
    5.2.1  Status Quo Analysis
    5.2.2  Existing Issues
    5.2.3  Countermeasures and Suggestions
  5.3  Speeding Up Talent Training
    5.3.1  Status Quo Analysis
    5.3.2  Existing Issues
    5.3.3  Policy Suggestions
  5.4  Setting Up Public Technical Service Platform
    5.4.1  Status Quo Analysis
    5.4.2  Existing Issues
    5.4.3  Countermeasures and Suggestions
  5.5  Improving Supervision and Service Platform
    5.5.1  Status Quo Analysis
    5.5.2  Existing Issues
    5.5.3  Countermeasures and Suggestions
  5.6  Promoting International Exchanges and Cooperations
    5.6.1  Status Quo Analysis
    5.6.2  Existing Issues
    5.6.3  Countermeasures and Suggestions
  References
6  Innovation Fields for Sustainable Development of Wind Power
  6.1  Integrated Operation Techniques of Large-Scale Wind Power
    6.1.1  Wind Power Prediction
    6.1.2  Integrated Operation and Management
    6.1.3  Optimal Dispatching and Risk Prevention
    6.1.4  Concluding Remarks
  6.2  Distributed Wind Power and Microgrid System
    6.2.1  Background of Distributed Wind Power and Microgfid
    6.2.2  Present Status
    6.2.3  Market Demand Analysis
    6.2.4  Technical Route and Trends
    6.2.5  Concluding Remarks
  6.3  IT-Based Intelligent Wind Farm
    6.3.1  IT in Wind Power Prediction System
    6.3.2  IT in Wind Farm Maintenance System
    6.3.3  IT in Energy Management System
    6.3.4  Concluding Remarks
  6.4  Wind Turbine Reliability Design
    6.4.1  About Reliability Design
    6.4.2  Reliability Design of Wind Turbine
    6.4.3  Basic Information of Reliability Design of Wind Turbine
    6.4.4  Key Technologies of Wind Turbine Reliability Design
    6.4.5  Conclusion
  6.5  Design, Manufacture, and Maintenance of Large Wind Turbine Blades
    6.5.1  Design of Wind Turbine Blades
    6.5.2  Manufacture of Wind Turbine Blades
    6.5.3  Maintenance of Wind Turbine Blades
    6.5.4  Concluding Remarks
  6.6  Drive Train System Technologies for Large-Scale Wind Turbines
    6.6.1  Present Status of Drive Train Technologies
    6.6.2  Medium-Speed-Drive Technology
    6.6.3  Critical Technologies for Medium-Speed-Drive Scheme
    6.6.4  Concluding Remarks
  6.7  Metocean, Load, and Response of Offshore Wind Turbine Equipment
    6.7.1  Metocean Around Offshore Wind Power Farms
    6.7.2  Support Structure of Offshore Wind Turbines
    6.7.3  Hydrodynamic Loads on Structural Support of Marine Wind Turbines
    6.7.4  Dynamic Response of Marine Wind Power Turbines System
    6.7.5  Concluding Remarks
  6.8  Intelligent and Green Manufacture of Wind Power Equipments
    6.8.1  Greenization of Wind Power Equipment Manufacture
    6.8.2  Intelligent Manufacture of Wind Power Equipments
    6.8.3  Concluding Remarks
  6.9  Diversified Utilization of Wind Energy
    6.9.1  Multi-energy Complement
    6.9.2  Wind Power Heat Supply
    6.9.3  Wind-Powered Hydrogen Production
    6.9.4  Wind Power Storage
    6.9.5  Wind-Powered Desalination
    6.9.6  Concluding Remarks
  References
Index