分布式光伏接入情况下配电自动化系统的适应性

为了应对分布式光伏接入配电网的挑战,分析了分布式光伏的短路电流特征和分布式光伏接入对配电网短路电流的影响,指出当分布式光伏接入上游母线时,依据故障电流的传统故障定位策略完全适应。给出了分布式光伏接入馈线情形下的最不利条件,并分析了能够满足传统故障定位策略要求的适应范围。为了满足分布式光伏超出适应范围的故障定位要求,论述了两种应对方法,即重合闸与分布式光伏脱网特性配合法和基于方向元件法。研究结果表明:无论配电网发生三相或两相短路,由光伏供出的短路电流都不超过其额定电流的1.5倍;在分布式光伏接入容量不超过馈线载流量25%的条件下,电缆馈线基本都能满足传统故障定位规则要求、架空馈线绝大部分能满足传...

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Bibliographic Details
Published in电力系统保护与控制 Vol. 42; no. 20; pp. 7 - 12
Main Author 刘健 林涛 李龙 沈兵兵 同向前 张志华
Format Journal Article
LanguageChinese
Published 陕西电力科学研究院,陕西 西安,710054%国家电网公司运检部,北京,100108%国网电力科学研究院,江苏 南京,210003%西安理工大学自动化与信息工程学院,陕西 西安,710048 2014
Subjects
分布式光伏
故障定位
短路电流
配电网
配电自动化
故障定位
distributed photovoltaic
配电自动化
fault location
配电网
短路电流
distribution grids
distribution automation
short-circuit current
分布式光伏
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Summary:为了应对分布式光伏接入配电网的挑战,分析了分布式光伏的短路电流特征和分布式光伏接入对配电网短路电流的影响,指出当分布式光伏接入上游母线时,依据故障电流的传统故障定位策略完全适应。给出了分布式光伏接入馈线情形下的最不利条件,并分析了能够满足传统故障定位策略要求的适应范围。为了满足分布式光伏超出适应范围的故障定位要求,论述了两种应对方法,即重合闸与分布式光伏脱网特性配合法和基于方向元件法。研究结果表明:无论配电网发生三相或两相短路,由光伏供出的短路电流都不超过其额定电流的1.5倍;在分布式光伏接入容量不超过馈线载流量25%的条件下,电缆馈线基本都能满足传统故障定位规则要求、架空馈线绝大部分能满足传统故障定位规则要求。论述的两种应对方法能够满足分布式光伏超出适应范围的故障定位要求。
Bibliography:LIU Jian, LIN Tao, LI Long, SHEN Bing-bing, TONG Xiang-qian, ZHANG Zhi-hua (1. Shaanxi Electric Power Research Institute, Xi'an 710054, China; 2. State Grid Corporation of China, Beijing 100108, China; 3. State Grid Electric Power Research Institute, Nanjing 210003, China; 4. School of Automation and Information Engineering, Xi'an University of Technology, Xi'an 710048, China)
41-1401/TM
To cope with the challenge of more photovoltaic (PV) installation, the impact of the distributed PVs on the short-circuit current in distribution grids is analyzed. It is pointed out that the traditional fault location approach based on the fault current is fully adequate in the case that the PVs are installed on the upstream buses. The worst condition in the case of PVs installed on the feeders is given and the adaptability ranges of traditional fault location approach are deduced. Two fault location methods are proposed for the cases of the traditional fault location approach not satisfied, such as, the reclosing based method
ISSN:1674-3415