The Experts below are selected from a list of 369378 Experts worldwide ranked by ideXlab platform
Chul-hwan Kim - One of the best experts on this subject based on the ideXlab platform.
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Output Power dispatch control for a wind farm in a small Power system
Wind Energy, 2010Co-Authors: Akie Uehara, Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Naomitsu Urasaki, Endusa Billy Muhando, Chul-hwan KimAbstract:Nowadays, a wind turbine generator (WTG) is required to provide control capabilities as the Output Power of WTG fluctuates. Under this scenario, this paper proposes an Output Power control method of a wind farm (WF) connected to a small Power system using pitch angle control. In this control approach, the WF Output Power control is achieved by two control levels: central and local. In the central control, the WF Output Power command is determined by considering the frequency deviations and wind speeds using a fuzzy function. Then, the local Output Power commands for each of the WTGs are based on the proposed dispatch control. In the proposed dispatch control, the Output commands of each WTG are determined by considering wind conditions for each of the WTGs. The simulation results by using an actual detailed model for the wind Power system show the effectiveness of the proposed method. Copyright © 2010 John Wiley & Sons, Ltd.
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Output Power Coordination Control for Wind Farm in Small Power System
2007 International Conference on Intelligent Systems Applications to Power Systems, 2007Co-Authors: Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Manoj Datta, Toshihisa Funabashi, Chul-hwan KimAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of wind farm (WF) using pitch angle control connected to small Power systems. In this control approach, WF Output Power control is achieved by two control levels: central and local. In central control, WF Output Power command is determined by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Then, local Output Power commands of each WTG are given by WF Output Power command and coordination control, and each WTG ensures WF Output Power command. The simulation results by using an actual detailed model for wind Power system show the effectiveness of the proposed method.
Toshiaki Kaneko - One of the best experts on this subject based on the ideXlab platform.
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Output Power dispatch control for a wind farm in a small Power system
Wind Energy, 2010Co-Authors: Akie Uehara, Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Naomitsu Urasaki, Endusa Billy Muhando, Chul-hwan KimAbstract:Nowadays, a wind turbine generator (WTG) is required to provide control capabilities as the Output Power of WTG fluctuates. Under this scenario, this paper proposes an Output Power control method of a wind farm (WF) connected to a small Power system using pitch angle control. In this control approach, the WF Output Power control is achieved by two control levels: central and local. In the central control, the WF Output Power command is determined by considering the frequency deviations and wind speeds using a fuzzy function. Then, the local Output Power commands for each of the WTGs are based on the proposed dispatch control. In the proposed dispatch control, the Output commands of each WTG are determined by considering wind conditions for each of the WTGs. The simulation results by using an actual detailed model for the wind Power system show the effectiveness of the proposed method. Copyright © 2010 John Wiley & Sons, Ltd.
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Output Power Coordination Control for Wind Farm in Small Power System
2007 International Conference on Intelligent Systems Applications to Power Systems, 2007Co-Authors: Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Manoj Datta, Toshihisa Funabashi, Chul-hwan KimAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of wind farm (WF) using pitch angle control connected to small Power systems. In this control approach, WF Output Power control is achieved by two control levels: central and local. In central control, WF Output Power command is determined by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Then, local Output Power commands of each WTG are given by WF Output Power command and coordination control, and each WTG ensures WF Output Power command. The simulation results by using an actual detailed model for wind Power system show the effectiveness of the proposed method.
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Output Power Control for Large Wind Power Penetration in Small Power System
2007 IEEE Power Engineering Society General Meeting, 2007Co-Authors: Tomonobu Senjyu, Toshiaki Kaneko, Atsushi Yona, Toshihisa Funabashi, Naomitsu Urasaki, F. YamadaAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of WTG using pitch angle control connected to small Power systems. By means of the proposed method, Output Power control of WTG considering states of Power system becomes possible, and in general both conflicting objectives of Output Power leveling and acquisition Power increase are achieved. In this control approach, WTG is given Output Power command by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Since fuzzy reasoning is used, it is possible to define Output Power command corresponding to wind speed condition and changing capacity of Power system momentarily. Moreover, high performance pitch angle control based on Output Power command is achieved by generalized predictive control (GPC). The simulation results by using actual detailed model for wind Power system show the effectiveness of the proposed method.
Tomonobu Senjyu - One of the best experts on this subject based on the ideXlab platform.
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Output Power dispatch control for a wind farm in a small Power system
Wind Energy, 2010Co-Authors: Akie Uehara, Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Naomitsu Urasaki, Endusa Billy Muhando, Chul-hwan KimAbstract:Nowadays, a wind turbine generator (WTG) is required to provide control capabilities as the Output Power of WTG fluctuates. Under this scenario, this paper proposes an Output Power control method of a wind farm (WF) connected to a small Power system using pitch angle control. In this control approach, the WF Output Power control is achieved by two control levels: central and local. In the central control, the WF Output Power command is determined by considering the frequency deviations and wind speeds using a fuzzy function. Then, the local Output Power commands for each of the WTGs are based on the proposed dispatch control. In the proposed dispatch control, the Output commands of each WTG are determined by considering wind conditions for each of the WTGs. The simulation results by using an actual detailed model for the wind Power system show the effectiveness of the proposed method. Copyright © 2010 John Wiley & Sons, Ltd.
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Output Power Coordination Control for Wind Farm in Small Power System
2007 International Conference on Intelligent Systems Applications to Power Systems, 2007Co-Authors: Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Manoj Datta, Toshihisa Funabashi, Chul-hwan KimAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of wind farm (WF) using pitch angle control connected to small Power systems. In this control approach, WF Output Power control is achieved by two control levels: central and local. In central control, WF Output Power command is determined by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Then, local Output Power commands of each WTG are given by WF Output Power command and coordination control, and each WTG ensures WF Output Power command. The simulation results by using an actual detailed model for wind Power system show the effectiveness of the proposed method.
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Output Power Control for Large Wind Power Penetration in Small Power System
2007 IEEE Power Engineering Society General Meeting, 2007Co-Authors: Tomonobu Senjyu, Toshiaki Kaneko, Atsushi Yona, Toshihisa Funabashi, Naomitsu Urasaki, F. YamadaAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of WTG using pitch angle control connected to small Power systems. By means of the proposed method, Output Power control of WTG considering states of Power system becomes possible, and in general both conflicting objectives of Output Power leveling and acquisition Power increase are achieved. In this control approach, WTG is given Output Power command by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Since fuzzy reasoning is used, it is possible to define Output Power command corresponding to wind speed condition and changing capacity of Power system momentarily. Moreover, high performance pitch angle control based on Output Power command is achieved by generalized predictive control (GPC). The simulation results by using actual detailed model for wind Power system show the effectiveness of the proposed method.
Atsushi Yona - One of the best experts on this subject based on the ideXlab platform.
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Output Power dispatch control for a wind farm in a small Power system
Wind Energy, 2010Co-Authors: Akie Uehara, Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Naomitsu Urasaki, Endusa Billy Muhando, Chul-hwan KimAbstract:Nowadays, a wind turbine generator (WTG) is required to provide control capabilities as the Output Power of WTG fluctuates. Under this scenario, this paper proposes an Output Power control method of a wind farm (WF) connected to a small Power system using pitch angle control. In this control approach, the WF Output Power control is achieved by two control levels: central and local. In the central control, the WF Output Power command is determined by considering the frequency deviations and wind speeds using a fuzzy function. Then, the local Output Power commands for each of the WTGs are based on the proposed dispatch control. In the proposed dispatch control, the Output commands of each WTG are determined by considering wind conditions for each of the WTGs. The simulation results by using an actual detailed model for the wind Power system show the effectiveness of the proposed method. Copyright © 2010 John Wiley & Sons, Ltd.
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Output Power Coordination Control for Wind Farm in Small Power System
2007 International Conference on Intelligent Systems Applications to Power Systems, 2007Co-Authors: Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Manoj Datta, Toshihisa Funabashi, Chul-hwan KimAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of wind farm (WF) using pitch angle control connected to small Power systems. In this control approach, WF Output Power control is achieved by two control levels: central and local. In central control, WF Output Power command is determined by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Then, local Output Power commands of each WTG are given by WF Output Power command and coordination control, and each WTG ensures WF Output Power command. The simulation results by using an actual detailed model for wind Power system show the effectiveness of the proposed method.
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Output Power Control for Large Wind Power Penetration in Small Power System
2007 IEEE Power Engineering Society General Meeting, 2007Co-Authors: Tomonobu Senjyu, Toshiaki Kaneko, Atsushi Yona, Toshihisa Funabashi, Naomitsu Urasaki, F. YamadaAbstract:Nowadays, wind turbine generator (WTG) is increasingly required to provide control capabilities regarding Output Power. Under this scenario, this paper proposes an Output Power control of WTG using pitch angle control connected to small Power systems. By means of the proposed method, Output Power control of WTG considering states of Power system becomes possible, and in general both conflicting objectives of Output Power leveling and acquisition Power increase are achieved. In this control approach, WTG is given Output Power command by fuzzy reasoning which has three inputs for average wind speed, variance of wind speed, and absolute average of frequency deviation. Since fuzzy reasoning is used, it is possible to define Output Power command corresponding to wind speed condition and changing capacity of Power system momentarily. Moreover, high performance pitch angle control based on Output Power command is achieved by generalized predictive control (GPC). The simulation results by using actual detailed model for wind Power system show the effectiveness of the proposed method.
Akie Uehara - One of the best experts on this subject based on the ideXlab platform.
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Output Power dispatch control for a wind farm in a small Power system
Wind Energy, 2010Co-Authors: Akie Uehara, Toshiaki Kaneko, Tomonobu Senjyu, Atsushi Yona, Naomitsu Urasaki, Endusa Billy Muhando, Chul-hwan KimAbstract:Nowadays, a wind turbine generator (WTG) is required to provide control capabilities as the Output Power of WTG fluctuates. Under this scenario, this paper proposes an Output Power control method of a wind farm (WF) connected to a small Power system using pitch angle control. In this control approach, the WF Output Power control is achieved by two control levels: central and local. In the central control, the WF Output Power command is determined by considering the frequency deviations and wind speeds using a fuzzy function. Then, the local Output Power commands for each of the WTGs are based on the proposed dispatch control. In the proposed dispatch control, the Output commands of each WTG are determined by considering wind conditions for each of the WTGs. The simulation results by using an actual detailed model for the wind Power system show the effectiveness of the proposed method. Copyright © 2010 John Wiley & Sons, Ltd.
