期刊
IEEE TRANSACTIONS ON POWER ELECTRONICS
卷 37, 期 12, 页码 15482-15492出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPEL.2022.3197308
关键词
Control; power transfer capacity; stability; voltage sensitivity; weak grid; wind power plants (WPPs)
This article analyzes the power transfer limit of wind power plants under weak grid conditions and proposes using voltage sensitivity as a metric for assessing the maximum power transfer capability. The article suggests implementing voltage control at the bus with the highest voltage sensitivity and adding dynamic voltage control at the turbine level to improve robustness and disturbance rejection capability.
This article analyzes the power transfer limit (P-max) of wind power plants (WPPs) under the weak grid condition. It is pointed out that the impact of different grid parameters and grid configurations on P-max cannot be fully reflected by the short-circuit ratio (SCR), but can be readily captured by voltage sensitivity (partial derivative Q/partial derivative V). Hence, partial derivative Q/partial derivative V turns out to be a more appropriate metric for the assessment of P-max compared with the SCR. Based on this insight, the voltage control of the WPP is suggested to be implemented at the bus with the highest partial derivative Q/partial derivative V to maximize the power transfer capability. Moreover, a dynamic voltage control is further added at the turbine level to improve the disturbance rejection capability of the WPP as well as its dynamic robustness against grid strength variations. Finally, simulation and field test results are given to demonstrate the theoretical analysis and the effectiveness of the proposed control method.
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