Stability and Accuracy Considerations in the Design and Implementation of Wind Turbine Power Hardware in the Loop Platform 被引量：1

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摘要 There is increasing interest in the evaluation of wind turbine control capabilities for providing grid support.Power hardware in the loop(PHIL)simulation is an advanced method that can be used for studying the interaction of hardware with the power network,as the scaled-down actual wind turbine is connected with a simulated system through an amplifier.Special consideration must be made in the design of the PHIL platform to ensure that the system is stable and yields accurate results.This paper presents a method for stabilizing the PHIL interface and improving the accuracy of PHIL simulation in a real-time application.The method factors in both the power and voltage scaling level,and a phase compensation scheme.It uses the reactive power control capability of the wind turbine inverter to eliminate the phase shift imposed by the feedback current filter.This is accomplished with no negative impact on the dynamic behavior of the wind turbine.The PHIL simulation results demonstrate the effectiveness of the proposed stability analysis method and phase compensation scheme.The strength of the platform is demonstrated by extending the simulation method to wind turbine control validation.

作者 Kui Luo Wenhui Shi Yongning Chi Qiuwei Wu Weisheng Wang

机构地区 State Key Laboratory of Operation and Control of Renewable Energy&Storage System Center for Electric Power and Energy(CEE)

出处《CSEE Journal of Power and Energy Systems》 SCIE 2017年第2期167-175,共9页 中国电机工程学会电力与能源系统学报（英文）

基金 supported in part by the National Basic Research Program of China(973 Program)under Grant 2012CB215105.

关键词 Phase compensation power hardware in the loop stability and accuracy wind turbine

分类号 TP3 [自动化与计算机技术—计算机科学与技术]

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参考文献1

1侍乔明,王刚,马伟明,付立军,徐力,刘洋.直驱永磁风电机组虚拟惯量控制的实验方法研究[J].中国电机工程学报,2015,35(8):2033-2042. 被引量：45

二级参考文献23

1吴捷,许燕灏.基于异步电动机的风力机风轮动态模拟方法[J].华南理工大学学报（自然科学版）,2005,33(6):46-49. 被引量：38
2刘其辉,贺益康,赵仁德.基于直流电动机的风力机特性模拟[J].中国电机工程学报,2006,26(7):134-139. 被引量：73
3尹明,李庚银,张建成,赵巍然,薛轶峰.直驱式永磁同步风力发电机组建模及其控制策略[J].电网技术,2007,31(15):61-65. 被引量：235
4李伟伟,徐殿国,张学广.基于直流电机模拟风力机的静态和动态特性[J].电机与控制应用,2007,34(11):1-5. 被引量：7
5Chinchilla M,Arnaltes S,Burgos J C.Control of permanent-magnet generators applied to variable-speed wind-energy systems connected to the grid[J].IEEE Transactions on Energy Conversion,2006,21(1):130-135.
6Morren J,Pierik J,Haan S W.Inertial response of variable speed wind turbines[J].Electric Power Systems Research,2006,76(2):980-987.
7Holdsworth L,Ekanayake J,Jenkins N.Power system frequency response from fixed speed and doubly fed induction generator based wind turbines[J].Wind Energy,2004,7(1):21-35.
8Monfared M,Kojabadi H M,Rastegar H.Static and dynamic wind turbine simulator using a converter controlled dc motor[J].Renewable Energy,2008(33):906-913.
9Mokadem M E,Courtecuisse V,Saudemont C,et al.Experimental study of variable speed wind generator contribution to primary frequency control[J].Renewable Energy,2009,34(4):833-844.
10Mokadem M E,Courtecuisse V,Saudemont C,et al.Fuzzy logic supervisor-based primary frequency control experiments of a variable-speed wind generator[J].IEEE Transactions on Power Systems,2009,24(1):407-417.

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1邓桢彦,王伟,王晗,秦垚,曹云峰,杨志千,邵昊舒,蔡旭.电压源风电机组的全风速段惯量响应控制[J].中国电机工程学报,2022,42(S01):12-25.
2胡中禄.黑龙江垦区发展质量效益农业的战略思考[J].中国农垦经济,2000(6):10-12. 被引量：1
3刘璋玮,刘锋,梅生伟,毕大强,姚亚鑫.扩张状态观测器在双馈风机虚拟惯量控制转速恢复中的应用[J].中国电机工程学报,2016,36(5):1207-1217. 被引量：15
4马静,李益楠,邱扬,王增平.双馈风电机组虚拟惯量控制对系统小干扰稳定性的影响[J].电力系统自动化,2016,40(16):1-7. 被引量：24
5由蕤,柴建云,孙旭东.基于可变下垂线的变速风电机组参与微网频率调节控制[J].中国电机工程学报,2016,36(24):6751-6758. 被引量：4
6吕志鹏,盛万兴,刘海涛,孙丽敬,吴鸣,李蕊.虚拟同步机技术在电力系统中的应用与挑战[J].中国电机工程学报,2017,37(2):349-359. 被引量：219
7杨俊友,王海鑫,白殿春,邢作霞,张华友,董丽萍,郑伟.基于变流器联合控制的永磁风电机组孤网调频方法[J].中国电机工程学报,2017,37(10):2887-2895. 被引量：5
8沈天骄,曾成,王琦.虚拟同步机技术在电力系统中的发展及应用[J].电工电气,2017(9):6-10. 被引量：1
9张建良,齐冬莲,吴越.一种风机频率稳定控制器的设计及仿真实验[J].实验室研究与探索,2017,36(9):87-91. 被引量：2
10李洋,王春明,侯朋飞,王金全,徐晔.脉冲负载下微电网储能电池虚拟惯量控制研究[J].微型机与应用,2017,36(20):92-96. 被引量：1

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2Sifan Jiang,Can Wan,Chen Chen,Erbao Cao,Yonghua Song.Distributed Photovoltaic Generation in the Electricity Market:Status,Mode and Strategy[J].CSEE Journal of Power and Energy Systems,2018,4(3):263-272. 被引量：8
3Hao Xiao,Wei Pei,Zuomin Dong,Li Kong.Bi-level Planning for Integrated Energy Systems Incorporating Demand Response and Energy Storage Under Uncertain Environments Using Novel Metamodel[J].CSEE Journal of Power and Energy Systems,2018,4(2):155-167. 被引量：28

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5杨勇,李继红,周自强,黄晓明,陆翌,赵荣祥,裴雪军,查晓明,田杰,许烽.智能配电柔性多状态开关技术、装备及示范应用[J].高电压技术,2020,46(4):1105-1113. 被引量：14
6韩永强,王学超,孙碣,孙永辉,金红洋.分布式多源储能模糊聚类集群协调优化模型[J].可再生能源,2020,38(6):831-836. 被引量：5
7项颂,陈璐,苏鹏,顾大可,王泽镝.考虑风储多维运行边界的调峰资源优化配置模型[J].可再生能源,2020,38(7):980-985. 被引量：8
8金红洋,滕云,冷欧阳,张铁岩,陈哲.基于源荷不确定性状态感知的无废城市多能源协调储能模型[J].电工技术学报,2020,35(13):2830-2842. 被引量：18
9李守英,胡瑞松,赵卫民,李贝贝,王勇.氢在钢铁表面吸附以及扩散的研究现状[J].表面技术,2020,49(8):15-21. 被引量：12
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