Fuel Cells : Modeling, Control, and Applications

Introduction The Past, Present, and Future of Fuel Cells Typical Fuel Cell Power System Organization The Importance of Fuel Cell Dynamics Organization of This Book Fundamentals of Fuel Cells Introduction PEMFC Components The Balance-of-Plant Components Linear and Nonlinear Models of Fuel Cell Dynamics Introduction Nomenclature Nonlinear Models of PEMFC Dynamics State Space Dynamic Model of PEMFCs Electrochemical Circuit Model of PEMFCs Linear Model of PEMFC Dynamics Parametric Sensitivity of PEMFC Output Response Linear and Nonlinear Control Design for Fuel Cells Introduction Linear Control Design for Fuel Cells Nonlinear Control Design for Fuel Cells Nonlinear Control Design for Interface Analysis of Control Design Simulation of Nonlinear Control for PEMFC Simulink Implementation of Fuel Cell Models and Controllers Introduction Simulink Implementation of the Fuel Cell Models Simulink Implementation of the Fuel Cell Controllers Simulation Results Applications of Fuel Cells in Vehicles Introduction Fuel Cell Vehicle Components Hybrid Electric Vehicles and Fuel Cell System Design for Electric Vehicles Control of Hybrid Fuel Cell System for Electric Vehicles Fault Diagnosis of Hybrid Fuel Cell System Application of Fuel Cells in Utility Power Systems and Stand-Alone Systems Introduction Utility Power Systems and Residential Applications Stand-Alone Application Modeling Distributed Generators in Load Flow Analysis Control and Analysis of Hybrid Renewable Energy Systems Introduction Hybrid System Consisting of Wind and Fell Cell Sources Hybrid Renewable Energy System for Isolated Islands Power Management of a Stand-Alone Wind/Photovoltaic/Fuel Cell Energy System Hybrid Renewable Energy Systems in Load Flow Analysis Appendices Index References appear at the end of each chapter.