虚拟电厂主备过流继电器协调剥夺脆弱性评估

2023 International Conference on Energy, Power, Environment, Control, and Computing (ICEPECC) Pub Date : 2023-03-08 DOI:10.1109/ICEPECC57281.2023.10209438

M. Rizwan, Ciwei Gao, Xingyu Yan, Gujing Lin, Yuan Gu, Minghe Wu

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引用次数: 0

摘要

基于可变可再生能源的分布式发电系统(VRE-DG)已广泛渗透到传统配电网中。虚拟电厂(VPP)可以将多种VRE-DG组合成一个机组。VPP运营商(VPO)可以控制VRE-DG的运行，并与配电系统运营商(DSO)协调电力贸易和经济调度。因此，将消费者转化为生产消费者。VPP调试可能会使保护系统的运行复杂化或降级。本文详细分析了VPP对主备过流继电器(OCR)协调的潜在磁化率下降的影响。引入了保护退化指数(PDI)，提出了一种根据PDI修正受影响OCR参数的新策略，以恢复主备OCR之间的协调关系。所研究的VPP包括风力发电机(WTG)、光伏(PV)和基于通信站的蓄电池(CSESB)。以天津配电网(TDN)中国为例进行了案例研究，并加入了VPP，以显示VPP对所提出策略的保护协调和熟练程度的影响。

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Vulnerability Assessment for Primary-Backup Overcurrent Relay Coordination Deprivation Due to Virtual Power Plant

Variable renewable energy-based distributed generations (VRE-DG) have extensively penetrated into the conventional distribution network. A virtual power plant (VPP) can group the diversified VRE-DG into one unit. The VPP operator (VPO) can control the VRE-DG operation and coordinate with the distribution system operator (DSO) for electricity trade and economic dispatch. Thus, converting consumers into prosumers. The VPP commissioning can complex or degrade the operation of the protection system. In this paper, a detailed analysis of potential susceptibility degradation of primary-backup overcurrent relay (OCR) coordination owing to VPP is provided. Protection degradation index (PDI) is introduced and a novel strategy to emend the parameters of affected OCR according to PDI is proposed to rehabilitate the coordination among primary-backup OCR. The studied VPP includes wind turbine generator (WTG), Photovoltaic (PV), and communication station-based storage batteries (CSESB). The case studies are conducted on the Tianjin distribution network (TDN) China, modified with the incorporation of VPP to show the impact of VPP on protection coordination and proficiency of the proposed strategy.

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来源期刊

2023 International Conference on Energy, Power, Environment, Control, and Computing (ICEPECC)

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