[1]张新宁.风电整机研发技术现状与发展趋势[J].控制与信息技术,2013,(03):1-4.[doi:10.13889/j.issn.2095-3631.2013.03.004]
 ZHANG Xin-ning.Technology Status and Development Trend of Wind Turbine Generation System[J].High Power Converter Technology,2013,(03):1-4.[doi:10.13889/j.issn.2095-3631.2013.03.004]
点击复制

风电整机研发技术现状与发展趋势()
分享到:

《控制与信息技术》[ISSN:2095-3631/CN:43-1486/U]

卷:
期数:
2013年03期
页码:
1-4
栏目:
“风力发电”专刊
出版日期:
2013-06-05

文章信息/Info

Title:
Technology Status and Development Trend of Wind Turbine Generation System
文章编号:
2095-3631(2013)03-0001-04
作者:
张新宁
中国南车股份有限公司
Author(s):
ZHANG Xin-ning
(CSR Corporation Limited, Beijing 100036, China)
关键词:
风力发电风电机组发展趋势
Keywords:
wind power generation wind turbine development trend
分类号:
TM315
DOI:
10.13889/j.issn.2095-3631.2013.03.004
文献标志码:
A
摘要:
阐述了全球风力发电的发展状况,分析了我国风电整机研发技术现状以及与国外的差距,同时分析了我国风电技术发展过程中存在的风机质量、技术同质化竞争等问题,并对整机研发技术新趋势,如大型化技术、新型传动链技术、新的控制技术等进行了技术展望。
Abstract:
The development status of global wind power generation is illustrated and the status of wind turbine R&D technology in China and the technology gaps between China and foreign countries are analyzed. Meanwhile, the problems existed in the development process of wind power generation technology, such as quality problem of wind turbine and homogeneous competition are introduced. At last, new trend of wind turbine generation system R&D technology, such as large-scale wind turbine technology, new drive chain technology and new control technology are discussed.

参考文献/References:

[1] 国家发改委. 可再生能源发展“十一五”规划[EB/OL].[2008- 03-18]. http://www.sdpc.gov.cn/zcfb/zcfbtz/2008 tongzhi/t2008 0318_198262.htm.
[2] 科技部. 风力发电科技发展“十二五”专项规划[EB/OL]. [2012- 04-24]. http://www.most.gov.cn/fggw/zfwj/zfwj2012/ 201204/ t20120424_93884.htm.
 [3] Global wind energy council. Global wind statistics[EB/OL]. [2013- 02-11]. http://www.gwec.net/wp-content /uploads/2013/02 / GWEC-PRstats-2012_english.pdf.

相似文献/References:

[1]张杰,段绪连,张雪梅.风轮特性的电气模拟[J].控制与信息技术,2014,(04):32.[doi:10.13889/j.issn.2095-3631.2014.04.008]
 ZHANG Jie,DUAN Xu-lian,ZHANG Xue-mei.Electrical Simulation of Wind Turbine[J].High Power Converter Technology,2014,(03):32.[doi:10.13889/j.issn.2095-3631.2014.04.008]
[2]熊 辉,袁 勇,黄 南,等. 风电功率组件电热特性分析[J].控制与信息技术,2016,(02):47.[doi:10.13889/j.issn.2095-3631.2016.02.010]
 XIONG Hui,YUAN Yong,HUANG Nan,et al. Analysis of Electrical & Thermal Performances for Power Assembly of Wind Power[J].High Power Converter Technology,2016,(03):47.[doi:10.13889/j.issn.2095-3631.2016.02.010]
[3]张元林,赵燕峰,郭 锐,等.风电机组短路故障与安全保护对策[J].控制与信息技术,2016,(01):43.[doi:10.13889/j.issn.2095-3631.2016.01.010]
 ZHANG Yuanlin,ZHAO Yanfeng,GUO Rui,et al.Short-circuit Faults in Wind Turbine and Its Protective Measures[J].High Power Converter Technology,2016,(03):43.[doi:10.13889/j.issn.2095-3631.2016.01.010]
[4]邓方林,王建良,况金园,等.双馈风力发电机轴承电流分析[J].控制与信息技术,2016,(01):58.[doi:10.13889/j.issn.2095-3631.2016.01.013]
 DENG Fanglin,WANG Jianliang,KUANG Jinyuan,et al.Analysis of Bearing Current in Doubly-fed Induction Generator for Wind Power[J].High Power Converter Technology,2016,(03):58.[doi:10.13889/j.issn.2095-3631.2016.01.013]
[5]杨佳元,欧阳华,盛科,等.WT计算湍流强度用于风电场安全性评估的研究[J].控制与信息技术,2013,(05):14.[doi:10.13889/j.issn.2095-3631.2013.05.006]
 YANG Jia-yuan,OUYANG Hua,SHENG Ke,et al.Study on Turbulence Intensity Calculated by WT for Safety Assessment of Wind Farms[J].High Power Converter Technology,2013,(03):14.[doi:10.13889/j.issn.2095-3631.2013.05.006]
[6]杜佳佳,万宇宾,刘红文,等.兆瓦级风电机组控制器设计平台的开发及应用[J].控制与信息技术,2013,(03):12.[doi:10.13889/j.issn.2095-3631.2013.03.006]
 DU Jia-jia,WAN Yu-bin,LIU Hong-wen,et al.Design and Application of a Design Platform for Multiple Megawatt Wind Turbines Controller[J].High Power Converter Technology,2013,(03):12.[doi:10.13889/j.issn.2095-3631.2013.03.006]
[7]王靛,巫发明,王磊,等.低风速风电机组多学科优化设计[J].控制与信息技术,2013,(03):16.[doi:10.13889/j.issn.2095-3631.2013.03.007]
 WANG Dian,WU Fa-ming,WANG Lei,et al.Multidisciplinary Design Optimization of Low Wind Speed Wind Turbine[J].High Power Converter Technology,2013,(03):16.[doi:10.13889/j.issn.2095-3631.2013.03.007]
[8]胡凯凯,翟大勇,夏相春,等.风电场有功功率分配策略及其实现[J].控制与信息技术,2013,(03):32.[doi:10.13889/j.issn.2095-3631.2013.03.010]
 HU Kai-kai,ZHAI Da-yong,XIA Xiang-chun,et al.Distribution Strategy of Wind Farm Active Power and Its Implementation[J].High Power Converter Technology,2013,(03):32.[doi:10.13889/j.issn.2095-3631.2013.03.010]
[9]罗文广,张志学,盛建科,等.全功率变流器风电机组低电压穿越控制策略研究[J].控制与信息技术,2013,(03):48.[doi:10.13889/j.issn.2095-3631.2013.03.012]
 LUO Wen-guang,ZHANG Zhi-xue,SHENG Jian-ke,et al.Research on the Control Strategy for Low Voltage Ride-through of Full Power Converter for Wind Turbine[J].High Power Converter Technology,2013,(03):48.[doi:10.13889/j.issn.2095-3631.2013.03.012]
[10]刘红文,万宇宾,刘春秀,等.基于独立变桨的大型风电机组减载控制技术[J].控制与信息技术,2013,(03):58.[doi:10.13889/j.issn.2095-3631.2013.03.014]
 LIU Hong-wen,WAN Yu-bin,LIU Chun-xiu,et al.Load Reduction Control Technology of Large-scale Wind Turbine Based on Individual Pitch Control[J].High Power Converter Technology,2013,(03):58.[doi:10.13889/j.issn.2095-3631.2013.03.014]
[11]冯江华.风电变流器的技术现状与发展[J].控制与信息技术,2013,(03):5.[doi:10.13889/j.issn.2095-3631.2013.03.005]
 FENG Jiang-hua.Technology Status and Development of Wind Power Converters[J].High Power Converter Technology,2013,(03):5.[doi:10.13889/j.issn.2095-3631.2013.03.005]

备注/Memo

备注/Memo:
收稿日期:2013- 04- 06
 作者简介:张新宁(196 4 - ),男,教授级高级工程师,主要从事轨道交通装备、新能源以及相关技术和产品的研究和技术管理工作。
更新日期/Last Update: 2016-08-25