Bei Gou, Woonki Na, Bill Diong
Fuel Cells
Dynamic Modeling and Control with Power Electronics Applications, Second Edition
Bei Gou, Woonki Na, Bill Diong
Fuel Cells
Dynamic Modeling and Control with Power Electronics Applications, Second Edition
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Due to its voltage and current characteristics, fuel cells are inherently necessary to have a power electronics converter for the power conversions DC/DC and DC/AC. Auto companies are now promoting fuel cell vehicles, which are made possible by fuel cells and power electronics converters. Many power systems companies, such as Bloom Energy, have
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Due to its voltage and current characteristics, fuel cells are inherently necessary to have a power electronics converter for the power conversions DC/DC and DC/AC. Auto companies are now promoting fuel cell vehicles, which are made possible by fuel cells and power electronics converters. Many power systems companies, such as Bloom Energy, have
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- 2nd edition
- Seitenzahl: 411
- Erscheinungstermin: 30. September 2020
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 576g
- ISBN-13: 9780367655914
- ISBN-10: 0367655918
- Artikelnr.: 60011442
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Taylor & Francis Ltd (Sales)
- 2nd edition
- Seitenzahl: 411
- Erscheinungstermin: 30. September 2020
- Englisch
- Abmessung: 234mm x 156mm x 21mm
- Gewicht: 576g
- ISBN-13: 9780367655914
- ISBN-10: 0367655918
- Artikelnr.: 60011442
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
Bei Gou earned his PhD in electrical engineering at Texas A&M University in 2000. He was a power application engineer with ABB System Control at Santa Clara, California from 2000 to 2002, and then he worked as a senior analyst at the Independent System Operator-New England (ISO-NE) from 2002 to 2003. Dr. Gou joined the Department of Electrical Engineering at The University of Texas at Arlington as an assistant professor from 2003 to 2008. He is the founder of a start-up company-Smart Electric Grid, LLC. He was with the Department of Electrical and Computer Engineering as an associate professor at North Dakota State University from 2011 to 2013. His current research areas include: power system real-time monitoring, nonlinear control of fuel cells, power electronics theory and applications, blackout and cascading failures of power systems, phasor measurements, state estimation for power systems, and power system reliability. Dr. Gou has published about 90 journal and conference papers. He has authored two books, Fuel Cells: Modeling, Control and Applications (Taylor & Francis/CRC Press, Boca Raton, Florida, 2009) and Monitoring and Optimization of Power Transmission and Distribution Systems (VDM Publishing House Ltd., Germany, 2009). Bill Diong is an associate professor in the Department of Electrical Engineering at Kennesaw State University (KSU), and he is also the coordinator of its MS Applied Engineering-Electrical concentration program. He earned his PhD in electrical engineering from the University of Illinois (Urbana-Champaign) in 1992 and gained valuable practical experience as a senior research engineer with Sundstrand Aerospace (now part of UTC [United Technologies Corporation] Aerospace Systems) before returning to academia. Prior to joining KSU in 2011, he had been an assistant professor at the University of Texas at El Paso where he was the Forrest and Henrietta Lewis professor of electrical engineering between 2000 and 2002. His research interests encompass advanced power and energy systems, including: electric vehicles and electronic power converters, and other dynamic systems and their control. He has authored or coauthored more than a dozen journal publications and several dozen conference publications in these areas. Funding for his work has come from various organizations that include the National Science Foundation, the Ballistic Missile Defense Organization, and the U.S. Air Force. He is a senior member of the IEEE. Woonki Na earned BS and MS degrees in electrical engineering from Kwangwoon University, Seoul, South Korea, in 1995 and 1997, respectively. He then earned his PhD in electrical engineering from the University of Texas at Arlington in May 2008. From 2008 to 2009, he worked with Caterpillar Inc., Peoria, Illinois and participated in several hybrid electric drives programs as senior engineer. He was an assistant professor with the Department of Electrical and Computer Engineering, Bradley University, Peoria, Illinois from 2010 to 2013. Currently he is an assistant professor with the Department of Electrical and Computer Engineering, California State University, Fresno since August 2013. His research and teaching interests include: power electronics, battery management, and digital signal processor (DSP)-based control designs for hybrid electric vehicles and renewable/alternative energy applications.
Introduction. Fundamentals of Fuel Cells. Linear and Nonlinear Models of
Fuel Cell Dynamics. Linear and Nonlinear Control Design for Fuel Cells.
Simulink Implementation of Fuel Cell Models and Controllers. Applications
of Fuel Cells in Vehicles. Application of Fuel Cells in Utility Power
Systems and Stand-Alone Systems. Control and Analysis of Hybrid Renewable
Energy Systems. Optimization of PEMFCs. Power Electronics Applications for
Fuel Cells. A PEM Fuel Cell Temperature Controller. Implementation of
Digital Signal Processor-Based Power Electronics Control. Appendix A:
Linear Control. Appendix B: Nonlinear Control. Appendix C: Induction
Machine Modeling and Vector Control for Fuel Cell Vehicle Applications.
Appendix D: Coordinate Transformation. Appendix E: Space Vector PWM. Index.
Fuel Cell Dynamics. Linear and Nonlinear Control Design for Fuel Cells.
Simulink Implementation of Fuel Cell Models and Controllers. Applications
of Fuel Cells in Vehicles. Application of Fuel Cells in Utility Power
Systems and Stand-Alone Systems. Control and Analysis of Hybrid Renewable
Energy Systems. Optimization of PEMFCs. Power Electronics Applications for
Fuel Cells. A PEM Fuel Cell Temperature Controller. Implementation of
Digital Signal Processor-Based Power Electronics Control. Appendix A:
Linear Control. Appendix B: Nonlinear Control. Appendix C: Induction
Machine Modeling and Vector Control for Fuel Cell Vehicle Applications.
Appendix D: Coordinate Transformation. Appendix E: Space Vector PWM. Index.
Introduction. Fundamentals of Fuel Cells. Linear and Nonlinear Models of
Fuel Cell Dynamics. Linear and Nonlinear Control Design for Fuel Cells.
Simulink Implementation of Fuel Cell Models and Controllers. Applications
of Fuel Cells in Vehicles. Application of Fuel Cells in Utility Power
Systems and Stand-Alone Systems. Control and Analysis of Hybrid Renewable
Energy Systems. Optimization of PEMFCs. Power Electronics Applications for
Fuel Cells. A PEM Fuel Cell Temperature Controller. Implementation of
Digital Signal Processor-Based Power Electronics Control. Appendix A:
Linear Control. Appendix B: Nonlinear Control. Appendix C: Induction
Machine Modeling and Vector Control for Fuel Cell Vehicle Applications.
Appendix D: Coordinate Transformation. Appendix E: Space Vector PWM. Index.
Fuel Cell Dynamics. Linear and Nonlinear Control Design for Fuel Cells.
Simulink Implementation of Fuel Cell Models and Controllers. Applications
of Fuel Cells in Vehicles. Application of Fuel Cells in Utility Power
Systems and Stand-Alone Systems. Control and Analysis of Hybrid Renewable
Energy Systems. Optimization of PEMFCs. Power Electronics Applications for
Fuel Cells. A PEM Fuel Cell Temperature Controller. Implementation of
Digital Signal Processor-Based Power Electronics Control. Appendix A:
Linear Control. Appendix B: Nonlinear Control. Appendix C: Induction
Machine Modeling and Vector Control for Fuel Cell Vehicle Applications.
Appendix D: Coordinate Transformation. Appendix E: Space Vector PWM. Index.