8.3 Load Transient Mitigation Control -- 8.4 Simulation Results -- 8.5 Summary -- 9 Hybrid Fuel Cell Based Energy System Case Studies -- 9.1 Introduction -- 9.2 Hybrid Electronically Interfaced Systems -- 9.3 Fuel Cells in Hybrid Combined Heat and Power Operation Mode -- 9.4 Case Study I: A Hybrid Stand-Alone Wind-PV-FC System -- 9.5 Case Study II: SOFC Efficiency Evaluation in Hybrid Operation Mode -- 9.6 Summary -- 10 Present Challenges and Future of Fuel Cells -- 10.1 Introduction -- 10.2 Fuel Cell System Operations -- 10.3 Present Challenges and Opportunities -- 10.4 U.S. Fuel Cell R&D Programs -- 10.5 Future of Fuel Cells: A Summary and Authors Opinions -- References -- Appendix A Instruction for Running the PEMFC and SOFC Models and Their Distributed Generation Application Models -- Index

    Preface -- Acknowledgments -- 1 Introduction -- 1.1 Background: A Brief History of U.S. Electric Utility Formation and Restructuring -- 1.2 Power Deregulation and Distributed Generation -- 1.3 DG Types -- 1.4 Fuel Cell DG -- 1.5 The Hydrogen Economy -- 2 Principles of Operation of Fuel Cells -- 2.1 Introduction -- 2.2 Chemical and Thermal Energy of an Element -- 2.3 Fundamentals of Thermodynamics -- 2.4 Fundamentals of Electrochemical Processes -- 2.5 Energy Balance in Chemical Reactions -- 2.6 The Nernst Equation -- 2.7 Fuel Cell Basics -- 2.8 Types of Fuel Cells -- 2.9 Fuel Cell Equivalent Circuit -- 2.10 Capacitance of Double-Layer Charge Effect -- 2.11 Summary -- 3 Dynamic Modeling and Simulation of PEM Fuel Cells -- 3.1 Introduction: Need for Fuel Cell Dynamic Models -- 3.2 Nomenclature (PEMFC) -- 3.3 PEMFC Dynamic Model Development -- 3.4 PEMFC Model Structure -- 3.5 Equivalent Electrical Circuit Model of PEMFC -- 3.6 PEMFC Model Validation -- 4 Dynamic Modeling and Simulation of Solid Oxide Fuel Cells -- 4.1 Introduction -- 4.2 Nomenclature (SOFC) -- 4.3 SOFC Dynamic Model Development -- 4.4 SOFC Dynamic Model Structure -- 4.5 SOFC Model Response-Constant Fuel Flow Operation -- 4.6 SOFC Model Response-Constant Fuel Utilization Operation -- 5 Principles of Operation and Modeling of Electrolyzers -- 5.1 Principle of Operation of Electrolyzers -- 5.2 Dynamic Modeling of Electrolyzers -- 5.3 Electrolyzer Model Implementation -- 6 Power Electronic Interfacing Circuits for Fuel Cell Applications -- 6.1 Introduction -- 6.2 Overview of Basic Power Electronic Switches -- 6.3 ac/dc Rectifiers -- 6.4 dc to dc Converters -- 6.5 Three-Phase dc/ac Inverters -- 7 Control of Grid-Connected Fuel Cell Power Generation Systems -- 7.1 Introduction -- 7.2 Grid-Connected System Configuration -- 7.3 Controller Designs for dc/dc Converters and the Inverter -- 7.4 Simulation Results -- 7.5 Summary -- 8 Control of Stand-Alone Fuel Cell Power Generation Systems -- 8.1 Introduction -- 8.2 System Description and Control Strategy


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    Title :

    Modeling and control of fuel cells : distributed generation applications


    Contributors:


    Publication date :

    2009


    Size :

    1 Online-Ressource (xviii, 296 Seiten)


    Remarks:

    Illustrationen
    Campusweiter Zugriff (Universität Hannover) - Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots.
    Includes bibliographical references and index
    Restricted to subscribers or individual electronic text purchasers




    Type of media :

    Book


    Type of material :

    Electronic Resource


    Language :

    English



    Classification :

    RVK:    ZN 8510
    DDC:    621.312429
    BKL:    53.36 Energiedirektumwandler, elektrische Energiespeicher



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