《电力自动化设备》

引用本文:	李桓,彭克,张新慧,柳劲松,徐丙垠,赵艳雷.基于IIDG电流相位控制的配电网故障电流抑制方法[J].电力自动化设备,2019,39(9):
	LI Huan,PENG Ke,ZHANG Xinhui,LIU Jingsong,XU Bingyin,ZHAO Yanlei.Fault current suppression method for distribution network by controlling IIDG current phase[J].Electric Power Automation Equipment,2019,39(9):

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基于IIDG电流相位控制的配电网故障电流抑制方法
李桓¹, 彭克¹, 张新慧¹, 柳劲松², 徐丙垠¹, 赵艳雷¹
1.山东理工大学电气与电子工程学院，山东淄博 255000;2.国网上海市电力科学研究院，上海 200437

摘要:

我国配电网正面临着高渗透率分布式电源接入的挑战，配电网的拓扑结构与潮流方向发生了本质改变，易导致继电保护装置产生拒动或者误动。针对分布式电源大多通过电压源型逆变器并网这一现状，提出了基于逆变器电流相位控制的故障电流抑制方法，在dq坐标系下对逆变器输出电流相位进行控制，使得流过继电保护装置的故障电流幅值近似等于电网侧的短路电流，消除逆变型分布式电源提供的短路电流对继电保护装置的影响，减少继电保护装置的升级需求。在DIgSILENT/PowerFactroy仿真软件中搭建IEEE 13节点系统，仿真结果验证了所提控制策略的正确性及有效性。

关键词: 逆变型分布式电源故障电流抑制电流相位控制同步相量测量继电保护

DOI：10.16081/j.epae.201909030

分类号:TM77

基金项目:国家重点研发计划项目(2017YFB0902800)；山东省自然科学基金资助项目(ZR2017LEE022)

Fault current suppression method for distribution network by controlling IIDG current phase

LI Huan¹, PENG Ke¹, ZHANG Xinhui¹, LIU Jingsong², XU Bingyin¹, ZHAO Yanlei¹

1.College of Electrical and Electronic Engineering, Shandong University of Technology, Zibo 255000, China;2.State Grid Electric Power Research Institute, SMEPC, Shanghai 200437, China

Abstract:

The distribution network in China is facing the challenge of high penetration of distributed gene-ration integrated. As a result, the topology and power flow direction of the distribution network have been changed, which easily causes misoperation or maloperation of the relay protection devices. The distributed generations are mostly connected to the distribution network by voltage sources inverters, so a fault current suppression method based on the inverter current phase control is proposed. The phase of the inverter output current is controlled in the dq reference frame, which makes the fault current amplitude of the relay protection device approximate to the short circuit current of the grid side. By this way, the influence of short circuit current supplied by IIDG(Inverter Interfaced Distributed Generation) on relay protection devi-ces is eliminated, therefore, the demands for the upgrade of the relay protection devices can be reduced. The correctness and effectiveness of the proposed control strategy is verified by the IEEE 13-bus system in DIgSILENT/PowerFactroy.

Key words: inverter interfaced distributed generation fault current suppression current phase control synchronous phasor measurement relay protection

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