AbstractIn this paper controller design for voltage sag ride-through in hybrid fuel cell/battery... more AbstractIn this paper controller design for voltage sag ride-through in hybrid fuel cell/battery energy storage distributed power generation system has been presented. As the amount of fuel cell power generation and other Distributed Generation (DG) with power electronic in the ...
... Biographies Amir Hossein Shahirinia was born in Tehran, Iran in 1979. He received his BS in e... more ... Biographies Amir Hossein Shahirinia was born in Tehran, Iran in 1979. He received his BS in electrical en-gineering from Azad University, Iran, in 2003 and his MS degree in power engineering from KN Toosi University of Technology, Tehran, in 2005. ...
... Fig. 6 shows the supervisory control strategy in Stateflow toolbox. After determining the sui... more ... Fig. 6 shows the supervisory control strategy in Stateflow toolbox. After determining the suitable operating mode, real time power flow must be done. Hence in hybrid control structure, intelligent energy management strategy has been implied. ...
This paper presents controller design and simulation study of a Fuel Cell (FC) Distributed Genera... more This paper presents controller design and simulation study of a Fuel Cell (FC) Distributed Generation (DG) interface to mitigate voltage disturbance in distribution systems. The fuzzy sliding mode controller design for the voltage source converter is presented to control the reactive power and voltage disturbance mitigation in the utility grid. According to the developed MATLAB/Simulink simulation model for the FCDG
Abstract Increasing penetration of distributed generation and renewable energy such as wind farm... more Abstract Increasing penetration of distributed generation and renewable energy such as wind farms due to various reasons including environmental and economic causes, decentralization and limits on fossil fuels increased the effects of DG on power systems. This paper ...
This paper presents a multi-objective formulation for optimal siting and sizing of distributed ge... more This paper presents a multi-objective formulation for optimal siting and sizing of distributed generation (DG) resources in distribution systems in order to minimize the cost of power losses and energy not supplied. The implemented technique is based on particle swarm optimization (PSO) and weight method that employed to obtain the best compromise between these costs. Simulation results on 33-bus distribution
International Journal of Electric and Hybrid Vehicles, 2008
This paper describes a novel strategy developed for optimising the energy flow in a combined hybr... more This paper describes a novel strategy developed for optimising the energy flow in a combined hybrid electric vehicle (CHEV) structure. This method implemented an online energy management by a hierarchical hybrid controller between dual sources in this kind ...
International Journal of Electrical Power & Energy Systems, 2007
This paper describes a novel control strategy for active power flow in a hybrid fuel cell/battery... more This paper describes a novel control strategy for active power flow in a hybrid fuel cell/battery distributed generation system. The method introduces an on-line power management by a hierarchical hybrid controller between dual energy sources that consist of a battery bank and a solid oxide fuel cell (SOFC). The proposed method includes an advance supervisory controller in the first layer
Power and Energy, IEEE International Conference on, 2008
In this paper controller design for voltage sag ride-through in hybrid fuel cell/battery energy s... more In this paper controller design for voltage sag ride-through in hybrid fuel cell/battery energy storage distributed power generation system has been presented. As the amount of fuel cell power generation and other distributed generation (DG) with power electronic in the grid grows, it becomes unacceptable to disconnect generating units every time a disturbance occurs, as was common practice in the
AbstractIn this paper controller design for voltage sag ride-through in hybrid fuel cell/battery... more AbstractIn this paper controller design for voltage sag ride-through in hybrid fuel cell/battery energy storage distributed power generation system has been presented. As the amount of fuel cell power generation and other Distributed Generation (DG) with power electronic in the ...
... Biographies Amir Hossein Shahirinia was born in Tehran, Iran in 1979. He received his BS in e... more ... Biographies Amir Hossein Shahirinia was born in Tehran, Iran in 1979. He received his BS in electrical en-gineering from Azad University, Iran, in 2003 and his MS degree in power engineering from KN Toosi University of Technology, Tehran, in 2005. ...
... Fig. 6 shows the supervisory control strategy in Stateflow toolbox. After determining the sui... more ... Fig. 6 shows the supervisory control strategy in Stateflow toolbox. After determining the suitable operating mode, real time power flow must be done. Hence in hybrid control structure, intelligent energy management strategy has been implied. ...
This paper presents controller design and simulation study of a Fuel Cell (FC) Distributed Genera... more This paper presents controller design and simulation study of a Fuel Cell (FC) Distributed Generation (DG) interface to mitigate voltage disturbance in distribution systems. The fuzzy sliding mode controller design for the voltage source converter is presented to control the reactive power and voltage disturbance mitigation in the utility grid. According to the developed MATLAB/Simulink simulation model for the FCDG
Abstract Increasing penetration of distributed generation and renewable energy such as wind farm... more Abstract Increasing penetration of distributed generation and renewable energy such as wind farms due to various reasons including environmental and economic causes, decentralization and limits on fossil fuels increased the effects of DG on power systems. This paper ...
This paper presents a multi-objective formulation for optimal siting and sizing of distributed ge... more This paper presents a multi-objective formulation for optimal siting and sizing of distributed generation (DG) resources in distribution systems in order to minimize the cost of power losses and energy not supplied. The implemented technique is based on particle swarm optimization (PSO) and weight method that employed to obtain the best compromise between these costs. Simulation results on 33-bus distribution
International Journal of Electric and Hybrid Vehicles, 2008
This paper describes a novel strategy developed for optimising the energy flow in a combined hybr... more This paper describes a novel strategy developed for optimising the energy flow in a combined hybrid electric vehicle (CHEV) structure. This method implemented an online energy management by a hierarchical hybrid controller between dual sources in this kind ...
International Journal of Electrical Power & Energy Systems, 2007
This paper describes a novel control strategy for active power flow in a hybrid fuel cell/battery... more This paper describes a novel control strategy for active power flow in a hybrid fuel cell/battery distributed generation system. The method introduces an on-line power management by a hierarchical hybrid controller between dual energy sources that consist of a battery bank and a solid oxide fuel cell (SOFC). The proposed method includes an advance supervisory controller in the first layer
Power and Energy, IEEE International Conference on, 2008
In this paper controller design for voltage sag ride-through in hybrid fuel cell/battery energy s... more In this paper controller design for voltage sag ride-through in hybrid fuel cell/battery energy storage distributed power generation system has been presented. As the amount of fuel cell power generation and other distributed generation (DG) with power electronic in the grid grows, it becomes unacceptable to disconnect generating units every time a disturbance occurs, as was common practice in the
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Papers by Amin Hajizadeh