Design of a hybrid power modulation PSS for doubly-fed induction generator
Power and Energy Society General Meeting(2013)
摘要
To make full use of the damping control capability of doubly-fed induction generators (DFIGs) and simultaneously minimize the detrimental impact on torsional oscillations of DFIGs. A hybrid power modulation PSS (HPM-PSS) combining both reactive power modulation (RPM) and active power modulation (APM) using the same feedback input signal is first proposed. Here the RPM part has the priority as it has little influence on torsional oscillations of DFIGs and APM part is complementary to further increase system damping to the objective value. Then a step by step optimization algorithm is developed to tune HPM-PSS parameters. The effectiveness of HPM-PSS is demonstrated by time-domain simulations and Prony analysis under different operation states and power control modes of the DFIG in a two-area test system.
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关键词
torsional oscillations,optimisation,wind turbines,power system stability,damping control,reactive power control,reactive power modulation,time-domain simulations,hybrid power modulation,asynchronous generators,doubly-fed induction generators,hpm-pss,hybrid power modulation pss,dfig,damping control capability,oscillations,feedback input signal,rpm,step by step optimization algorithm,damping,prony analysis,wind power generation,apm,indexes,observability,phase locked loops,reliability
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