《机电工程》杂志,月刊( 详细... )

中国标准连续出版物号 ISSN 1001-4551 CN 33-1088/TH
主办单位浙江省机电集团有限公司
浙江大学
主编赵 群
副 主 编唐任仲、罗向阳(执行主编)
总 经 理罗向阳
出 版浙江《机电工程》杂志社有限公司
地 址杭州市上城区延安路95号浙江省机电集团大楼二楼211、212室
电话Tel+86-571-87041360、87239525
E-mailmeem_contribute@163.com
国外发行中国国际图书贸易总公司
订阅全国各地邮局   国外代号M3135
国内发行浙江省报刊发行局
邮发代号32-68
广告发布登记证:杭上市管广发G-001号

在线杂志

当前位置: 机电工程 >>在线杂志

海上风力发电现状与发展趋势

作者:赵群,柴福莉 日期:2009-12-30/span> 浏览:5467 查看PDF文档

海上风力发电现状与发展趋势

赵群,柴福莉
(浙江机械工业情报研究所,浙江 杭州 310009)

摘要:介绍了国外海上风电发展现状,提出了风电技术的发展降低了海上风电开发的成本,政府支持是海上风电发展的主要因素。从海上风能资源评估、风电机组及风电场设计等方面论述了海上风电技术的发展。研究结果表明,海上风电技术朝着低成本、大风电机组等方向发展,对我国海上风电发展具有参考价值。
关键词:海上风电;风电机组;风电场设计
中图分类号:TK89文献标识码:A文章编号:1001-4551(2009)12-0005-04

Current status and trend of the offshore wind power
ZHAO Qun, CHAI Fuli
(Zhejiang Information Institute of Machinery Industry, Hangzhou 310009, China)
Abstract: The current status of offshore wind power was introduced. The cost was reduced with the development of the wind power technique, and the government support was the main driving force. The offshore wind power technique was described in the terms of offshore wind power resourse assessment, offshore wind power generator and offshore wind farm design. The result shows that the trend of offshore wind power is lower cost and large wind power generator, and it is worth China learning.
Key words: offshore wind power; wind power generator; wind farm design
参考文献(References):
[1]刘琦,徐移庆.世界海上风电投资分析[J].电器工业,2009(6):45-47.
[2]黄维平,刘建军,赵战华.海上风电基础结构研究现状及发展趋势[J].海洋工程,2009,27(2):130-134.
[3]MARTIN J, ANDRE F, WIRE C T.海上风电场降低成本前景分析[J].上海电力,2007(4):429-437.
[4]WALT M. Why go offshore and the potential of the United State[J]. Southeast Regional Offshore Wind Power Symposium,2007(2):26-27.
[5]MARTIN J. Cost reduction prospects for offshore wind farms[J]. Wind Engineering,2004,28(1):97-118.
[6]葛川,何炎平,叶宇,等.海上风电场的发展、构成和基础形式[J].中国海洋平台,2008,23(6):31-35.
[7]李俊峰.中国风电发展报告2008[M].北京:中国环境科学出版社,2008.
[8]李晓燕,余志.海上风力发电的进展[J].太阳能学报,2004,25(1):78-84.
[9]BERNHARD L, JRGEN H. Evaluation of the wind resource estimation program WASP for offshore application[J]. Journal of Wind Engineering and Industrial Aerodynamics,2001(89):271-291.
[10]MANWELL J F, ROGERS A L, MCGOWAN J G, et al. An offshore wind resource assessment study for New England[J]. Renewable Energy,2002(27):175-187.
[11]VAN WINGERDE A M, VAN DELFT D R V, PACKER J A, et al. Survey of support structures for offshore wind turbines[J]. Welding in the World,2006,50(SPEC):49-55.
[12]The Federal Maritime and Hygrographic Agency. Design for Offshore Wind Turbine Structures[EB/OL].[2007-12-20]. http://www.bsh.de/en/Products/Books/Standard/7005eng.pdf.
[13]CHERT Z, TARPJOHANSEN N J, JENSEN J J. Mechanical characteristics of some deepwater floater designs for offshore wind turbines[J]. Wind Engineering,2006,30(5):417-430.
[14]WALT M. Offshore Wind Energy Potential for the United State[EB/OL]. [2005-05-19]. http://www.windpoweringamerica.gov/pdfs/workshops/2005_summit/musial.pdf.
[15]黄东风.欧洲海上风电的发展[J].能源工程,2008(2):24-27.



友情链接

浙江机械信息网