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Control system developed for hybrid wind diesel system (HWDS) operating as standalone power system is presented. The HWDS consists of a permanent magnet synchronous generator (PMSG) based wind turbine generation system and a diesel generation system (DGS) with synchronous machine. Control system developed for both machine side and load side power converter is simulated. A maximum power point tracking...
Control system developed for hybrid wind diesel system (HWDS) based microgrid is presented. The hybrid system consists of six double fed induction generator (DFIG) based wind turbine generation system, a diesel generation system with synchronous machine and electrical power grid supply. Control system developed for both rotor side and grid side power converter is simulated. A maximum power point tracking...
In this paper, a power electronics circuit is proposed to control the rotational speed of a wind turbine. This interface is based on two DC-DC converters, where a buck converter is used to control the speed and a boost converter is used to maintain a constant voltage for the load. The power electronics circuit is implemented on a small laboratory size wind turbine and experimentation is carried out...
A pitch controlled wind turbine experiment workstation is presented in this paper. This laboratory size system can be used for research purpose, where various control strategies can be achieved through the pitch angle actuator/control for variable load. Mathematical models of the major components of the wind turbine and the configuration of the load, based on LED, are presented. Pitch angle control...
A control strategy developed for hybrid wind-diesel system (HWDS) is presented in this paper. The proposed system consists of the induction generator based wind turbine generation (WTG) system, IGBT based power electronics converters, diesel generator (DG) unit and dump load (DL) system. Developed control strategy shares the required power generation between the WTG and DG unit. The control system...
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