Verfügbarkeit: Proton exchange membrane fuel cells

Proton exchange membrane fuel cells:

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Bibliographische Detailangaben
1. Verfasser:	Qi, Zhigang (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, FL [u.a.] CRC Press 2014
Schriftenreihe:	Electrochemical energy storage and conversion
Schlagworte:	Polymer-Elektrolytmembran-Brennstoffzelle
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references (p. 329-331) and index
Beschreibung:	XXIX, 343 S. Ill., graph. Darst.
ISBN:	9781466513709

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MARC


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Datensatz im Suchindex

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adam_text	Contents Ώ Series Preface ..........................................................................................................xi Jiujun Zhang, PhD Preface ...................................................................................................................xiii Acknowledgments ................................................................................................xv About the Author ...............................................................................................xvii List of Acronyms .................................................................................................xix List of Units .........................................................................................................xxv List of Chemicals ..............................................................................................xxvii 1. Proton Exchange Membrane Fuel Cells .....................................................1 1.1 Fuel Cells: ...............................................................................................1 1.2 Types of Fuel Cells ................................................................................6 1.3 Advantages of Fuel Cells ......................................................................9 1.4 Proton Exchange Membrane Fuel Cells ...........................................11 1.4.1 Membrane ...............................................................................11 1.4.2 Catalysts ..................................................................................18 1.4.3 Catalyst Layer .........................................................................21 1.4.4 Gas Diffusion Medium .........................................................24 1.4.5 Microporous Layer ................................................................25 1.4.6 Membrane Electrode Assembly ...........................................26 1.4.7 Plate ..........................................................................................28 1.4.8 Single Cell ...............................................................................30 1.4.9 Stack .........................................................................................32 1.4.10 System ......................................................................................37 1.4.10.1 Cell Voltage Monitoring Module (CVM) ...........38 1.4.10.2 Fuel Supply Module (FSM) ..................................39 1.4.10.3 Air Supply Module (ASM) ...................................43 1.4.10.4 Exhaust Management Module (EMM) ..............45 1.4.10.5 Heat Management Module (HMM) ...................47 1.4.10.6 Water Management Module (WMM) ................50 1.4.10.7 Internal Power Supply Module (IPM) ................51 1.4.10.8 Power Conditioning Module (PCM) ..................53 1.4.10.9 Communications Module (COM) .......................54 1.4.10.10 Control Module (CM) ...........................................55 1.5 Summary ..............................................................................................56 2. Thermodynamics and Kinetics ..................................................................57 2.1 Theoretical Efficiency .........................................................................57 2.2 Voltage ..................................................................................................60 2.3 Polarization ..........................................................................................62 ν vi Contents 2.4 Tafel Equation ......................................................................................68 2.5 Voltage Loss due to Н2 Crossover at an Open Circuit ...................73 2.6 Example ................................................................................................75 2.7 Limiting Current Density ..................................................................77 2.7..1 Diffusion .................................................................................77 2.7.2 Porous Electrode ....................................................................80 2.7.3 Flooded Electrode ..................................................................82 2.7.4 Achievable Current Density and Power Density ..............87 2.8 Impact of the Ionomer on the Three-Phase Boundary ..................89 2.9 System Efficiency .................................................................................92 2.10 Water Balance ......................................................................................96 2.11 Thoughts on Ultra Thin Catalyst Layers .........................................99 2.12 Startup and Shutdown Strategies ...................................................105 2.12.1 Impacts of OCV and Air/Fuel Boundary .........................106 2.12.2 Strategies ...............................................................................108 2.12.2.1 N2 Purge .................................................................108 2.12.2.2 H2 Purge .................................................................108 2.12.2.3 H2 Diffusion ..........................................................109 2.12.2.4 Filling Stack Enclosure with H2 ......................... Ill 2.13 Summary ............................................................................................112 3. Hydrogen H2 ................................................................................................115 3.1 Properties of H2 .................................................................................115 3.2 Generation of H2 ................................................................................115 3.2.1 Reforming of Hydrocarbons and Alcohols ......................116 3.2.2 Cracking of Ammonia .........................................................127 3.2.3 Electrolysis of Water ............................................................130 3.2.3.1 Efficiency ...............................................................130 3.2.3.2 Internal Pressurization ........................................134 3.2.3.3 Proton Onsite РЕМ Electrolyzer ........................136 3.2.4 Chemical Sources .................................................................138 3.2.4.1 Metals .....................................................................138 3.2.4.2 Complex Metal Hydrides ....................................141 3.3 Hydrogen Storage .............................................................................143 3.3.1 Compressed Gas ..................................................................143 3.3.2 Metal Hydride ......................................................................143 3.4 Hydrogen Transportation and Refueling ......................................148 3.5 Summary ............................................................................................150 4. Evaluation .....................................................................................................153 4.1 Catalyst ...............................................................................................153 4.1.1 Composition ..........................................................................153 4.1.2 Size and Size Distribution ..................................................154 4.1.3 Crystallite Size ......................................................................155 Contents vii 4.1.4 Surface Area ..........................................................................155 4.1.5 Activity ..................................................................................157 4.1.6 Cyclic Voltammetry .............................................................159 4.2 Membrane ..........................................................................................163 4.2.1 Proton Conductivity ............................................................163 4.2.2 Water Content .......................................................................165 4.2.3 Durability ..............................................................................166 4.2.4 Dimensional Changes .........................................................167 4.3 GDM ....................................................................................................168 4.3.1 Electronic Conductivity ......................................................168 4.3.2 Hydrophobie ity ....................................................................169 4.3.3 Porosity ..................................................................................170 4.4 Plate .....................................................................................................171 4.4.1 Conductivity .........................................................................171 4.4.2 Density and Permeability ...................................................172 4.4.3 Corrosion Current ................................................................173 4.5 MEA ....................................................................................................175 4.5.1 Catalyst Loading ..................................................................175 4.5.2 Electrochemical Active Surface Area ................................175 4.5.3 H2 Crossover .........................................................................175 4.6 Single Cell ..........................................................................................177 4.6.1 V-I Curve ...............................................................................177 4.6.2 Durability Assessment ........................................................178 4.6.3 Load Cycling .........................................................................179 4.6.4 Temperature Cycling ...........................................................179 4.6.5 Poisoning Tolerance .............................................................180 4.7 Stack ....................................................................................................182 4.7.1 Performance and Durability ..............................................182 4.7.2 Startup Rate and Subzero Temperature Challenge ........183 4.8 Balance of Plant .................................................................................185 4.8.1 DC-DC Converter ................................................................185 4.8.2 Air Supply Device ................................................................186 4.8.3 Liquid Pump .........................................................................187 4.8.4 Heat Exchanger ....................................................................188 4.8.5 Solenoid Valve ......................................................................190 4.8.6 Control Board .......................................................................191 4.8.7 Flow Meter and Sensor .......................................................191 4.8.8 Internal Power Supply .........................................................192 4.9 System .................................................................................................194 4.10 Summary ............................................................................................195 5. Stationary Power .........................................................................................197 5.1 Backup Power ....................................................................................197 5.1.1 Telecommunications Station ..............................................197 5.1.2 Fuel Cell System with Air-Cooled Stack ..........................200 viii Contents 5.1.2.1 System Architecture .............................................200 5.1.2.2 Fuel Cell System with Ballard FCgen- 1020ACS Stack .......................................................201 5.1.2.3 ReliOn Fuel Cell Systems ....................................211 5.1.3 Fuel Cell System with Liquid-Cooled Stack .....................212 5.1.3.1 Features of the 5 kW System ...............................213 5.1.3.2 Stack from Sunrise Power ...................................215 5.1.3.3 Breadboard System ..............................................218 5.1.3.4 FueL Cell System ...................................................222 5.2 Primary Power ...................................................................................226 5.2.1 Fuel Processing .....................................................................226 5.2.1.1 Desulfurization .....................................................227 5.2.1.2 Steam Reforming ..................................................228 5.2.1.3 Water-Gas Shift Reaction ...................................229 5.2.1.4 Preferential Oxidation .........................................230 5.2.1.5 Steam Reforming Methanol................................231 5.2.2 IdaTech/Ballard Systems ....................................................232 5.3 Summary ............................................................................................234 6. Motive Power ...............................................................................................237 6.1 Fuel Cell Vehicles ..............................................................................237 6.2 Vehicle Power Requirements ...........................................................239 6.3 Driving Distance with 6 kg H2 ........................................................244 6.4 Electrical Power Train .......................................................................250 6.5 Fuel Cell System ................................................................................254 6.6 Examples ............................................................................................260 6.6.1 Tourist Cart ...........................................................................260 6.6.2 Car ..........................................................................................262 6.6.3 Forklift ...................................................................................266 6.6.3.1 Shanghai Shenli System ......................................268 6.6.3.2 Plug Power System ...............................................270 6.6.4 Data of Some Fuel Cell Vehicles ........................................270 6.7 Vehicle Test Procedures ....................................................................275 6.8 Summary ............................................................................................275 7. Portable Power .............................................................................................277 7.1 Volumetric Energy Density of Various Fuels ................................277 7.2 Direct Methanol Fuel Cells ..............................................................280 7.3 Conventional DMFC System Architecture ....................................283 7.4 DMFC System Using Neat Methanol by МП Micro Fuel Cells ... 285 7.4.1 How to Make It Work ..........................................................285 7.4.2 DMFC Charger .....................................................................288 7.5 DMFC Systems Developed by SFC Energy ...................................291 7.6 Summary ............................................................................................295 Contents ix 8. Perspectives ..................................................................................................297 8.1 Status and Targets.............................................................................297 8.1.1 DOE Funding .......................................................................297 8.1.2 СНР System ..........................................................................300 8.1.3 Cars and Buses .....................................................................301 8.1.4 H2 Storage ..............................................................................303 8.1.5 Portable System ....................................................................304 8.2 Challenges ..........................................................................................306 8.3 Perspectives ........................................................................................307 Appendix A: Terminology ...............................................................................309 Appendix B: Brief Introduction to Fuel Cell Developers ..........................325 References ...........................................................................................................329 Index .....................................................................................................................333
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spelling	Qi, Zhigang Verfasser aut Proton exchange membrane fuel cells Zhigang Qi Boca Raton, FL [u.a.] CRC Press 2014 XXIX, 343 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Electrochemical energy storage and conversion Includes bibliographical references (p. 329-331) and index Polymer-Elektrolytmembran-Brennstoffzelle (DE-588)4450903-0 gnd rswk-swf Polymer-Elektrolytmembran-Brennstoffzelle (DE-588)4450903-0 s DE-604 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027297569&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
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subject_GND	(DE-588)4450903-0
title	Proton exchange membrane fuel cells
title_auth	Proton exchange membrane fuel cells
title_exact_search	Proton exchange membrane fuel cells
title_full	Proton exchange membrane fuel cells Zhigang Qi
title_fullStr	Proton exchange membrane fuel cells Zhigang Qi
title_full_unstemmed	Proton exchange membrane fuel cells Zhigang Qi
title_short	Proton exchange membrane fuel cells
title_sort	proton exchange membrane fuel cells
topic	Polymer-Elektrolytmembran-Brennstoffzelle (DE-588)4450903-0 gnd
topic_facet	Polymer-Elektrolytmembran-Brennstoffzelle
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027297569&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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