Research on Detection Technology of Distributed Grid-Connected Photovoltaic Power Generation

Yong Biao Yang; Li Huang; Lu Chen

doi:10.4028/www.scientific.net/AMM.672-674.117

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 672-674Research on Detection Technology of Distributed...

Research on Detection Technology of Distributed Grid-Connected Photovoltaic Power Generation

Abstract:

The response, control and fault characteristics of the typical distributed grid-connected photovoltaic generation are described in this paper.And the whole experimental testing platform containing type testing platform, dynamic simulation testing platform and moving experimental process is structured, which describes composition and function of each testing platform. Finally the performance index test of distributed photovoltaic power generation system relying on Shanghai Electric Power Research Institute is carried out. And the experiment results reflect the performance of distributed grid-connected photovoltaic power generation comprehensively.

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Periodical:

Applied Mechanics and Materials (Volumes 672-674)

Pages:

117-122

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.672-674.117

Citation:

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Online since:

October 2014

Authors:

Yong Biao Yang*, Li Huang, Lu Chen

Keywords:

Distributed Photovoltaic Generation, Dynamic Simulation Testing Platform, Grid-Connected Testing, Mobile Experimental Testing Platform, Type Testing Platform

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* - Corresponding Author

References

[1] Yin Zhifeng, Zhang Yuanmin, ZhangZhenbo, and LuoShuke: A new Method for Islanding Detection of Grid-connected Photovolitaic Inverter, submitted to Power System Protection and Control, Vol. 41(2013), pp.117-121.

Google Scholar

[2] YinGuiliang, SunMeiling, and XiaoLiping: Review of Island Detection methods of distributed generation, submitted to Electronic Measurement Technology, Vol. 30(2007), pp.1-6.

Google Scholar

[3] LuTing, DuanShanxu, KamgYong: Anti-islanding Schemes of Grid-connected Inverters, submitted to Telecom Power Technologies, Vol. 23(2006), pp.38-41.

Google Scholar

[4] GuoXiaoqiang, ZhaoQinglin, WuWeiyang: Islanding Detection Method for Photovoltaic Grid-Connected Power System, submitted to Transactions of China Electrotechenical Society, Vol. 22(2007), pp.157-162.

Google Scholar

[5] ZhaoYao, ZhaoGengshen, ChenXi, ChengRuqi, GuoTianyong, LiuGuoliang: Research on Third Harmonic Disturbance Islanding Detection Method for Distributed Generation, submitted to Power System Protection and Control, Vol. 41(2013), pp.54-60.

Google Scholar

[6] YanHuaguang, ZhangXin, YangXiangjiang, WangHe, FanYing, JiangLimin, LiTaoyong: Development of Detection Platform for Grid-Connected Photovoltaic Inverters submitted to Power System Technology, Vol. 35(2011), pp.139-143.

Google Scholar

[7] LiHongtao, ZhangJunjun, BaoSijia, LinXiaojin: Design and Development of a Mobile Detection Platform for Grid connection of Small Photovoltaic Power Stations, submitted to Automation of Electric Power System. Vol. 35(2011), pp.39-42.

Google Scholar

[8] XuYuan, WangKe, LuZhigang, ChenXue-quan: Research on Implementation of Connection Inverter Detection Platform of PV System, submitted to Renewable Energy Resources. Vol. 31(2013), pp.30-33.

Google Scholar

[9] PangLe, ZhaoYuzhu, ShiYongfeng, GuoJia-lei, YuanBo: Safety Analysis on Turbo-generator Shafts under Short-circuit Working Condition, submitted to Journal of Electric Power, Vol. 27(2012), pp.498-501, 524.

Google Scholar