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JPEEE1467 Management of Battery-Super capacitor Hybrid Energy Storage and Synchronous Condenser for Isolated Operation of PMSG Based Variable-Speed Wind Turbine Generating Systems

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MANAGEMENT OF BATTERY-SUPER CAPACITOR HYBRID ENERGY STORAGE AND SYNCHRONOUS CONDENSER FOR ISOLATED OPERATION OF PMSG BASED VARIABLE-SPEED WIND TURBINE GENERATING SYSTEMS ABSTRACT: Standalone operation of a wind turbine generating system under fluctuating wind and variable load conditions is a difficult task. Moreover, high reactive power demand makes it more challenging due to the limitation of reactive capability of the wind generating system. A Remote Area Power Supply (RAPS) system consisting of a PermanentMagnet Synchronous Generator (PMSG), a hybrid energy storage, a dump load and a mains load is considered in this project. The hybrid energy storage consists of a battery storage and a supercapacitor where both are connected to the DC bus of the RAPS system. An energymanagement algorithm (EMA) is proposed for the hybrid energy storage with a view to improve the performance of the battery storage. A synchronous condenser is employed to provide reactive power and inertial support to the RAPS system. A coordinated control approach is developed to manage the active and reactive power flows among the RAPS components. In this regard, individual controllers for each RAPS component have been developed for effective management of the RAPS components.
BLOCK DIAGRAM: Dc generator Inverter Driver section Pic controller Output Storage battery Chopper2 Chopper1 Capacitor
TOOLS AND SOFTWARE USED:  MP LAB  ORCAD/PSPICE  MATLAB/SIMULINK OUTPUT:  HARDWARE  SIMULATION 

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JPEEE1467 Management of Battery-Super capacitor Hybrid Energy Storage and Synchronous Condenser for Isolated Operation of PMSG Based Variable-Speed Wind Turbine Generating Systems

  • 1. MANAGEMENT OF BATTERY-SUPER CAPACITOR HYBRID ENERGY STORAGE AND SYNCHRONOUS CONDENSER FOR ISOLATED OPERATION OF PMSG BASED VARIABLE-SPEED WIND TURBINE GENERATING SYSTEMS ABSTRACT: Standalone operation of a wind turbine generating system under fluctuating wind and variable load conditions is a difficult task. Moreover, high reactive power demand makes it more challenging due to the limitation of reactive capability of the wind generating system. A Remote Area Power Supply (RAPS) system consisting of a PermanentMagnet Synchronous Generator (PMSG), a hybrid energy storage, a dump load and a mains load is considered in this project. The hybrid energy storage consists of a battery storage and a supercapacitor where both are connected to the DC bus of the RAPS system. An energymanagement algorithm (EMA) is proposed for the hybrid energy storage with a view to improve the performance of the battery storage. A synchronous condenser is employed to provide reactive power and inertial support to the RAPS system. A coordinated control approach is developed to manage the active and reactive power flows among the RAPS components. In this regard, individual controllers for each RAPS component have been developed for effective management of the RAPS components.
  • 2. BLOCK DIAGRAM: Dc generator Inverter Driver section Pic controller Output Storage battery Chopper2 Chopper1 Capacitor
  • 3. TOOLS AND SOFTWARE USED:  MP LAB  ORCAD/PSPICE  MATLAB/SIMULINK OUTPUT:  HARDWARE  SIMULATION 