Abstract: Non-fault disturbance-based method and system for measuring short-circuit capacity of a power grid on site including: connecting or disconnecting a reactive compensation device to or from a power grid point of common coupling, to generate a disturbance on a power grid; obtaining total active power and total reactive power of a load of the point of common coupling before the disturbance; determining a vector difference between a voltage of the power grid point of common coupling before the disturbance and a voltage of the power grid point of common coupling after the disturbance; obtaining a voltage effective value of the power grid point of common coupling before the disturbance; obtaining a capacity of the reactive compensation device; and determining a short-circuit capacity of the point of common coupling according to total active power, total reactive power, vector difference between voltages, voltage effective value, and capacity of the reactive compensation device.
Type:
Grant
Filed:
October 3, 2018
Date of Patent:
December 14, 2021
Assignee:
Power Grid Planning Research Institute of Guizhou Power Grid Co., Ltd.
Inventors:
Pu Deng, Zhenghang Hao, Zhenming Liu, Yi Xue, Guangmei Zhang, Zhuo Chen, Qingming Zhao, Xueyong Tang, Qingsheng Li, Yu Zhang, Sha Zhang, Xianggang He, Jian Wang, Sibin Lu, Ke Yang
Abstract: Non-fault disturbance-based method and system for measuring short-circuit capacity of a power grid on site including: connecting or disconnecting a reactive compensation device to or from a power grid point of common coupling, to generate a disturbance on a power grid; obtaining total active power and total reactive power of a load of the point of common coupling before the disturbance; determining a vector difference between a voltage of the power grid point of common coupling before the disturbance and a voltage of the power grid point of common coupling after the disturbance; obtaining a voltage effective value of the power grid point of common coupling before the disturbance; obtaining a capacity of the reactive compensation device; and determining a short-circuit capacity of the point of common coupling according to total active power, total reactive power, vector difference between voltages, voltage effective value, and capacity of the reactive compensation device.
Type:
Application
Filed:
October 3, 2018
Publication date:
February 6, 2020
Applicant:
Power Grid Planning Research Institute of Guizhou Power Grid Co., Ltd.
Inventors:
Pu DENG, Zhenghang HAO, Zhenming LIU, Yi XUE, Guangmei ZHANG, Zhuo CHEN, Qingming ZHAO, Xueyong TANG, Qingsheng LI, Yu ZHANG, Sha ZHANG, Xianggang HE, Jian WANG, Sibin LU, Ke YANG