A regulating capacity determination method for pumped storage hydropower to restrain PV generation fluctuation

Abstract

The variable speed and constant frequency pumped storage hydropower (PSH) unit can strongly support the friendly complementation and joint power supply of cascaded hydropower and PV plant. Its fast response capability has provided a feasible solution for the rapid power and voltage regulation caused by real-time fluctuations of PV. However, there is a lack of research on precise evaluation on regulation capability and regulating capacity configuration for PSH to restrain the real-time fluctuations nowadays. In this paper, a cascaded hydro-PV-PSH complementary joint power system (CHPP) is studied, and a rule-based method for regulating capacity determination is proposed. A combined statistical technique is introduced to analyze the initial estimated regulating capacity of PSH. A continuous cyclic revision method is adopted to renew the ideal PV curve using the main operating constraints repeatedly until an optimal regulating capacity of PSH matching PV generation scale is achieved. The results of the case study verified the feasibility and effectiveness of PSH for restraining the fast fluctuations of PV in real-time, and the configuration between PV and PSH regulating capacity is obtained with real-time application requirements. Finally, analyses including weather conditions, curtailed energy and electricity shortage, the sensitivity analysis, state transition frequency are presented to demonstrate the robustness of the study.