Verfügbarkeit: Hydrogen production

Hydrogen production: by electrolysis

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Bibliographische Detailangaben
Weitere Verfasser:	Godula-Jopek, Agata (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2015
Schlagworte:	Wasserstofferzeugung Erneuerbare Energien Wasserstoffenergietechnik Elektrolyse Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIX, 402 S. Ill., graph. Darst. 244 mm x 170 mm
ISBN:	9783527333424 9783527676507

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Datensatz im Suchindex

_version_	1806330877083385856
adam_text	CONTENTS FOREWORD XIII PREFACE XV LIST OF CONTRIBUTORS XIX 1 INTRODUCTION 1 AGATA GODULA-JOPEK 1.1 OVERVIEW ON DIFFERENT HYDROGEN PRODUCTION MEANS FROM A TECHNICAL POINT OF VIEW 10 1.1.1 REFORMING 13 1.1.2 ELECTROLYSIS 14 1.1.3 GASIFICATION 16 1.1.4 BIOMASS AND BIOMASS-DERIVED FUELS CONVERSION 16 1.1.5 WATER SPLITTING 18 1.2 SUMMARY INCLUDING HYDROGEN PRODUCTION COST OVERVIEW 21 REFERENCES 28 2 FUNDAMENTALS OF WATER ELECTROLYSIS 33 PIERRE MILLET 2.1 THERMODYNAMICS OF THE WATER SPLITTING REACTION 33 2.1.1 THERMODYNAMIC FUNCTIONS OF STATE 33 2.1.2 SELECTION CRITERIA FOR OPERATING TEMPERATURE 35 2.1.3 ELECTROCHEMICAL WATER SPLITTING 36 2.1.4 PH DEPENDENCE OF WATER DISSOCIATION VOLTAGE 37 2.1.5 TEMPERATURE DEPENDENCE OF WATER DISSOCIATION VOLTAGE 39 2.1.6 PRESSURE DEPENDENCE OF WATER DISSOCIATION VOLTAGE 41 2.1.6.1 GENERAL PRESSURE DEPENDENCE 42 2.1.6.2 DETAILED PRESSURE DEPENDENCE 44 2.2 EFFICIENCY OF ELECTROCHEMICAL WATER SPLITTING 46 2.2.1 WATER SPLITTING CELLS: GENERAL CHARACTERISTICS 46 2.2.2 MAIN SOURCES OF ENERGY DISSIPATION IN ELECTROCHEMICAL CELLS 48 2.2.3 ENERGY EFFICIENCY OF WATER ELECTROLYSIS CELLS 50 2.2.4 FARADAIC EFFICIENCY OF WATER ELECTROLYSIS CELLS 51 2.3 KINETICS OF THE WATER SPLITTING REACTION 52 HTTP://D-NB.INFO/1058702807 VI \| CONTENTS 2.3.1 HALF-CELL REACTION MECHANISM IN ACIDIC MEDIA 52 2.3.1.1 HER 52 2.3.1.2 OER 53 2.3.1.3 KINETICS 54 2.3.2 HALF-CELL REACTION MECHANISM IN ALKALINE MEDIA 56 2.3.3 ROLE OF OPERATING TEMPERATURE ON THE KINETICS 56 2.3.4 ROLE OF OPERATING PRESSURE ON THE KINETICS 58 2.4 CONCLUSIONS 59 NOMENCLATURE 59 GREEK SYMBOLS 60 SUBSCRIPTS OR SUPERSCRIPTS 60 ACRONYMS 60 REFERENCES 61 3 PEM WATER ELECTROLYSIS 63 PIERRE MILLET 3.1 INTRODUCTION, HISTORICAL BACKGROUND 63 3.2 CONCEPT OF SOLID POLYMER ELECTROLYTE CELL 65 3.3 DESCRIPTION OF UNIT PEM CELLS 67 3.3.1 GENERAL DESCRIPTION 67 3.3.2 MEMBRANE ELECTRODE ASSEMBLIES 68 3.3.2.1 ELECTROCATALYSTS 68 3.3.2.2 COATING PROCESSES 69 3.3.2.3 ELECTROCATALYTIC LAYERS 71 '3.3.3 CURRENT-GAS DISTRIBUTORS 72 3.3.4 SPACERS 74 3.3.5 BIPOLAR PLATES 74 3.4 ELECTROCHEMICAL PERFORMANCES OF UNIT PEM CELLS 76 3.4.1 POLARIZATION CURVES 76 3.4.2 CHARACTERIZATION OF INDIVIDUAL ELECTRODES 78 3.4.3 CHARGE DENSITIES AND ELECTRODE ROUGHNESS 79 3.4.3.1 HALF-CELL CHARACTERIZATION 80 3.4.3.2 FULL-CELL CHARACTERIZATION 82 3.4.4 EIS CHARACTERIZATION 84 3.4.5 PRESSURIZED WATER ELECTROLYSIS AND CROSS-PERMEATION PHENOMENA 87 3.4.5.1 ORIGINS OF CROSS-PERMEATION PHENOMENA 87 3.4.5.2 HYDROGEN AND OXYGEN SOLUBILITY IN SPES 88 3.4.5.3 NAFION PERMEABILITY TO HYDROGEN AND OXYGEN 89 3.4.5.4 A SIMPLE MODEL TO ACCOUNT FOR GAS CROSS-PERMEATION 90 3.4.6 DURABILITY ISSUES: DEGRADATION MECHANISMS AND MITIGATION STRATEGIES 92 3.5 CELL STACKING 94 3.5.1 DIFFERENT STACK CONFIGURATIONS 94 3.5.2 DESIGN OF PEM WATER ELECTROLYSIS STACK 94 CONTENTS \| VII 3.5.3 STACK PERFORMANCES 96 3.5.4 DIAGNOSIS TOOLS AND MAINTENANCE 97 3.6 BALANCE OF PLANT 100 3.6.1 GENERAL DESCRIPTION 100 3.6.2 COST ANALYSIS 100 3.7 MAIN SUPPLIERS, COMMERCIAL DEVELOPMENTS AND APPLICATIONS 102 3.7.1 COMMERCIAL STATUS 102 3.7.2 MARKETS AND APPLICATIONS 104 3.8 LIMITATIONS, CHALLENGES AND PERSPECTIVES 105 3.8.1 REPLACEMENT OF PLATINUM WITH NON-NOBLE ELECTROCATALYSTS 107 3.8.2 REPLACEMENT OF IRIDIUM WITH NON-NOBLE ELECTROCATALYSTS 108 3.8.3 NEW POLYMERIC PROTON CONDUCTORS FOR OPERATION AT MORE ELEVATED TEMPERATURES 109 3.8.4 OPERATION AT ELEVATED CURRENT DENSITIES 110 3.8.5 OPERATION AT ELEVATED PRESSURES 110 3.9 CONCLUSIONS 111 NOMENCLATURE 113 GREEK SYMBOLS 113 SUBSCRIPTS OR SUPERSCRIPTS 114 ACRONYMS 114 REFERENCES 114 4 ALKALINE WATER ELECTROLYSIS 117 NICOLAS GUILLET AND PIERRE MILLET 4.1 INTRODUCTION AND HISTORICAL BACKGROUND 117 4.2 DESCRIPTION OF UNIT ELECTROLYSIS CELLS 121 4.2.1 GENERAL DESCRIPTION 121 4.2.2 ELECTROLYTE 123 4.2.3 ELECTRODES AND CATALYSTS 124 4.2.4 DIAPHRAGM/SEPARATOR 128 4.2.4.1 ZERO-GAP ASSEMBLY 131 4.2.4.2 ANIONIC MEMBRANES 132 4.3 ELECTROCHEMICAL PERFORMANCES OF ALKALINE WATER ELECTROLYSERS 137 4.3.1 POLARIZATION CURVES 137 4.3.2 COMPARISON OF ELECTROLYSER PERFORMANCES 138 4.3.3 OPERATION AT ELEVATED TEMPERATURES 139 4.3.3.1 THERMODYNAMICS 140 4.3.3.2 KINETICS 142 4.3.3.3 ELECTROLYTE CONDUCTIVITY 142 4.3.4 OPERATION AT ELEVATED PRESSURES 142 4.3.4.1 HYDROGEN COMPRESSION 143 4.3.4.2 PRESSURIZED ELECTROLYSERS 144 4.3.4.3 ADVANTAGES AND DISADVANTAGES 144 4.3.4.4 BEST SOLUTION? 146 4.4 MAIN SUPPLIERS, COMMERCIAL DEVELOPMENTS AND APPLICATIONS 147 VIII CONTENTS 4.4.1 MARKETS FOR ELECTROLYSERS 147 4.4.1.1 SMALL-SCALE ELECTROLYSER MARKET (LESS THAN 1 NM 3 H 2 H -1 ) 147 4.4.1.2 MEDIUM-SCALE ELECTROLYSERS MARKET (1 -10 NM 3 H 2 H _1 ) 147 4.4.1.3 LARGE SCALE ELECTROLYSERS (10 TO MORE THAN 100NM 3 H 2 - H -1 ) 148 4.4.2 COMMERCIALLY AVAILABLE ELECTROLYSER DESIGNS 150 4.4.2.1 OERLIKON-TYPE ELECTROLYSER ISO 4.4.2.2 NORSK HYDRO-TYPE ELECTROLYSER 154 4.4.2.3 ZDANSKY/LONZA-TYPE ELECTROLYSER 155 4.4.3 ADVANCED DESIGNS 156 4.4.3.1 METAL FOAM AS ELECTRODES 156 4.4.3.2 * GAS DIFFUSION ELECTRODES 159 4.4.3.3 VERY HIGH-PRESSURE ELECTROLYSERS 160 4.5 CONCLUSIONS 161 NOMENCLATURE 162 GREEK SYMBOLS 162 SUBSCRIPTS OR SUPERSCRIPTS 162 ACRONYMS 163 REFERENCES 163 5 UNITIZED REGENERATIVE SYSTEMS 167 PIERRE MILLET 5.1 INTRODUCTION 167 5.2 UNDERLYING CONCEPTS 168 5.2.1 THERMODYNAMICS 168 5.2.2 HALF-CELL REACTIONS 171 5.2.3 PROCESS REVERSIBILITY 172 5.3 LOW-TEMPERATURE PEM URFCS 174 5.3.1 PRINCIPLES 174 5.3.2 CELL STRUCTURE AND URFC STACK 175 5.3.3 PERFORMANCES 176 5.3.3.1 WATER ELECTROLYSIS MODE 176 5.3.3.2 FUEL CELL MODE 177 5.3.3.3 URFC MODE 178 5.3.4 LIMITATIONS AND PERSPECTIVES 180 5.4 HIGH-TEMPERATURE URFCS 182 5.4.1 PRINCIPLES 182 5.4.2 CELL STRUCTURE 182 5.4.3 PERFORMANCES 184 5.4.3.1 WATER ELECTROLYSIS MODE 184 5.4.3.2 FUEL CELL MODE 184 5.4.3.3 URFC MODE 185 5.4.4 LIMITATIONS AND PERSPECTIVES 186 5.5 GENERAL CONCLUSION AND PERSPECTIVES 187 NOMENCLATURE 187 GREEK SYMBOLS 188 CONTENTS IIX SUBSCRIPTS OR SUPERSCRIPTS 188 ACRONYMS 188 REFERENCES 189 6 HIGH-TEMPERATURE STEAM ELECTROLYSIS 191 JEROME LAURENCIN AND JULIE MOUGIN 6.1 INTRODUCTION 191 6.2 OVERVIEW OF THE TECHNOLOGY 191 6.3 FUNDAMENTALS OF SOLID-STATE ELECTROCHEMISTRY IN SOEC 197 6.3.1 CELL POLARIZATION CURVE 198 6.3.1.1 EXPRESSION OF THE CELL VOLTAGE /(/) 198 6.3.1.2 OHMIC LOSSES AND CONTACT RESISTANCES 199 6.3.1.3 ANODE AND CATHODE POLARIZATION: ROLE OF THE ELECTROCHEMICAL PROCESS ON THE CELL POLARIZATION CURVE 200 6.3.1.4 GLOBAL DECOMPOSITION OF THE CELL POLARIZATION CURVE 206 6.3.2 FUNDAMENTAL FOR ELECTROCHEMISTRY, MASS AND CHARGE TRANSFER IN SOEC ELECTRODES 209 6.3.2.1 ELECTRONIC AND IONIC CHARGE TRANSPORT INTO THE ELECTRODE 209 6.3.2.2 GAS TRANSPORT IN THE ELECTRODE 215 6.3.2.3 EXPRESSION OF THE SOURCE TERMS: KINETIC OF THE ELECTROCHEMICAL PROCESS 219 6.3.2.4 SPECIFIC OPERATING MECHANISMS OF SINGLE-PHASE SOEC ANODE 223 6.3.2.5 ROLE OF MICROSTRUCTURE IN THE ELECTRODE BEHAVIOUR 228 6.3.3 ROLE OF TEMPERATURE IN SOEC OPERATION 236 6.3.3.1 CELL THERMAL REGIMES 236 6.3.3.2 IMPACT OF CELL TEMPERATURE ON POLARIZATION CURVE 239 6.3.4 SUMMARY AND CONCLUDING REMARKS 243 6.4 PERFORMANCES AND DURABILITY 244 6.4.1 PERFORMANCES 244 6.4.2 DURABILITY 249 6.4.3 STACK ELECTROCHEMICAL AND THERMAL MANAGEMENT 252 6.5 LIMITATIONS AND CHALLENGES 253 6.5.1 DEGRADATION ISSUES 254 6.5.2 SYSTEM INTEGRATION AND ECONOMICAL CONSIDERATIONS 257 6.6 SPECIFIC OPERATION MODES 259 6.6.1 PRESSURIZED OPERATION 259 6.6.2 REVERSIBLE OPERATION 260 6.6.3 CO-ELECTROLYSIS 261 LIST OF TERMS 262 ROMAN SYMBOLS 262 GREEK SYMBOLS 263 ABBREVIATIONS 264 REFERENCES 264 X I CONTENTS 7 HYDROGEN STORAGE OPTIONS INCLUDING CONSTRAINTS AND CHALLENGES 273 AGATA GODULA-JOPEK 7.1 INTRODUCTION 273 7.2 LIQUID HYDROGEN 276 7.2.1 LIQUID HYDROGEN STORAGE SYSTEMS 279 7.3 COMPRESSED HYDROGEN 281 7.3.1 COMPRESSED HYDROGEN STORAGE SYSTEMS 282 7.4 CRYO-COMPRESSED HYDROGEN 284 7.4.1 CRYO-COMPRESSED HYDROGEN STORAGE SYSTEMS 284 7.5 SOLID-STATE HYDROGEN STORAGE INCLUDING MATERIALS AND SYSTEM-RELATED PROBLEMS 286 7.5.1 PHYSICAL STORAGE - OVERVIEW 290 7.5.2 CHEMICAL STORAGE - OVERVIEW 297 7.5.2.1 SOLID-STATE HYDROGEN STORAGE SYSTEM COUPLED WITH ELECTROLYSER 301 7.6 SUMMARY 304 REFERENCES 306 8 HYDROGEN: A STORAGE MEANS FOR RENEWABLE ENERGIES 311 CYRIL BOURASSEAU AND BENJAMIN GUINOT 8.1 INTRODUCTION 311 8.2 HYDROGEN: A STORAGE MEANS FOR RENEWABLE ENERGIES (RE) 312 8.2.1 RENEWABLE ENERGY SOURCES: CHARACTERISTICS AND IMPACTS ON ELECTRICAL NETWORKS 312 8.2.1.1 INTERMITTENCY AND LIMITED FORECAST OF RENEWABLE PRODUCTION AND ELECTRICAL LOAD 312 8.2.1.2 IMPACTS OF NON-DISPATCHABLE POWER SOURCES ON ELECTRICAL NETWORKS 314 8.2.1.3 SOLUTIONS FOR HIGHER PENETRATION OF RENEWABLE ENERGIES 316 8.2.2 ENERGY STORAGE ON ELECTRICAL NETWORKS 318 8.2.2.1 TECHNOLOGIES CHARACTERISTICS 318 8.2.2.2 PAST, PRESENT AND FUTURE TECHNOLOGY CHOICES 319 8.2.2.3 POSSIBLE ROLES OF ENERGY STORAGE ON THE GRID 320 8.2.3 HYDROGEN FOR ENERGY STORAGE 323 8.2.3.1 POWER TO HYDROGEN: USE OF ELECTROLYSIS TO STORE ELECTRICAL ENERGY 323 8.2.3.2 ATTRACTIVENESS OF HYDROGEN: NOT ONLY AN ENERGY CARRIER 324 8.2.3.3 USE OF HYDROGEN TO PRODUCE ELECTRICITY 326 8.3 ELECTROLYSIS POWERED BY INTERMITTENT ENERGY: TECHNICAL CHALLENGES, IMPACT ON PERFORMANCES AND RELIABILITY 327 8.3.1 EFFECT OF INTERMITTENCY ON SYSTEM DESIGN AND OPERATION 327 8.3.1.1 IMPACT ON POWER ELECTRONICS AND PROCESS CONTROL 329 8.3.1.2 REQUIREMENTS TO ALLOW DYNAMIC OPERATION 332 8.3.1.3 IMPACT ON DOWNSTREAM ELEMENTS 334 CONTENTS I XI 8.3.2 SYSTEM PERFORMANCES AND RELIABILITY UNDER DYNAMIC OPERATION 334 8.3.2.1 IMPACT ON HYDROGEN PRODUCTION CHARACTERISTICS 335 8.3.2.2 IMPACT ON SYSTEM EFFICIENCY 337 8.3.2.3 IMPACT OF INTERMITTENCY ON RELIABILITY AND DURABILITY 341 8.3.2.4 SPECIFICITIES OF HIGH-TEMPERATURE STEAM ELECTROLYSIS 343 8.3.3 IMPROVEMENTS ON DESIGN AND OPERATION TO MANAGE INTERMITTENCY 345 8.3.3.1 IMPROVEMENTS ON SYSTEM DESIGN 345 8.3.3.2 IMPROVEMENTS ON OPERATING STRATEGIES 347 8.3.3.3 WHICH TECHNOLOGY BEST SUITED TO INTERMITTENT SOURCES? 349 8.4 INTEGRATION SCHEMES AND EXAMPLES 351 8.4.1 AUTONOMOUS APPLICATIONS 351 8.4.1.1 PRODUCTION OF RENEWABLE HYDROGEN 352 8.4.1.2 STAND-ALONE POWER SYSTEM WITH HYDROGEN AS STORAGE OF ELECTRICAL ENERGY 353 8.4.2 GRID-CONNECTED APPLICATIONS 356 8.4.2.1 PRODUCTION OF RENEWABLE HYDROGEN WITH GRID ASSISTANCE 356 8.4.2.2 ELECTROLYSIS FOR RENEWABLE ENERGY STORAGE 357 8.4.2.3 RENEWABLE SOURCE, GRID AND ELECTROLYSIS INTEGRATED ENERGY SYSTEM 358 8.4.3 HIGH-TEMPERATURE STEAM ELECTROLYSIS INTEGRATION WITH RENEWABLE SOURCE 361 8.5 TECHNO-ECONOMIC ASSESSMENT 362 8.5.1 HYDROGEN FROM ELECTROLYSIS: FUTURE MARKETS 362 8.5.1.1 HYDROGEN FOR OFF-GRID APPLICATIONS 363 8.5.1.2 HYDROGEN FOR MOBILITY 363 8.5.1.3 POWER TO HYDROGEN - A WAY TO PROVIDE SERVICES TO THE NETWORK 364 8.6 THE ROLE OF SIMULATION FOR ECONOMIC ASSESSMENT 365 8.6.1 OBJECTIVES OF THE SIMULATION 365 8.6.2 SIMULATION'S MAIN INPUT DATA - IMPACT ON THE ROBUSTNESS OF THE RESULTS 367 8.6.2.1 COMPONENTS, ARCHITECTURES AND COMPONENT MODELS 368 8.6.2.2 CONTROL STRATEGIES 371 8.6.2.3 SIMULATION TEMPORAL CHARACTERISTICS 372 8.6.2.4 SIMULATION RESULTS 373 8.6.3 OPTIMIZATION AND SENSITIVITY ANALYSIS 375 8.6.3.1 PRINCIPLES 375 8.6.3.2 OBJECTIVES 375 8.6.3.3 MAIN DIFFICULTY AND SOLUTIONS RELATED TO SIMULATION 376 8.6.4 EXAMPLE OF EXISTING SOFTWARE PRODUCTS FOR TECHNO-ECONOMIC ASSESSMENTS OF HYDROGEN-BASED SYSTEMS 376 8.7 CONCLUSION 378 REFERENCES 379 XIII CONTENTS 9 OUTLOOK AND SUMMARY 383 AGATA GODULA-JOPEK AND PIERRE MILLET 9.1 COMPARISON OF WATER ELECTROLYSIS TECHNOLOGIES 387 9.2 TECHNOLOGY DEVELOPMENT STATUS AND MAIN MANUFACTURERS 387 9.2.1 ALKALINE WATER ELECTROLYSIS 387 9.2.2 PEM WATER ELECTROLYSIS 389 9.2.3 SOLID OXIDE WATER ELECTROLYSIS 390 9.3 MATERIAL AND SYSTEM ROADMAP SPECIFICATIONS 390 9.3.1 ALKALINE WATER ELECTROLYSIS 392 9.3.2 PEM WATER ELECTROLYSIS 392 9.3.3 SOLID OXIDE WATER ELECTROLYSIS 393 REFERENCES 393 INDEX 395
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV042471173
illustrated	Illustrated
indexdate	2024-08-03T02:16:02Z
institution	BVB
isbn	9783527333424 9783527676507
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-027906341
oclc_num	892071717
open_access_boolean
owner	DE-29T DE-11 DE-703 DE-1102
owner_facet	DE-29T DE-11 DE-703 DE-1102
physical	XIX, 402 S. Ill., graph. Darst. 244 mm x 170 mm
publishDate	2015
publishDateSearch	2015
publishDateSort	2015
publisher	Wiley-VCH
record_format	marc
spelling	Hydrogen production by electrolysis ed. by Agata Godula-Jopek Weinheim Wiley-VCH 2015 XIX, 402 S. Ill., graph. Darst. 244 mm x 170 mm txt rdacontent n rdamedia nc rdacarrier Wasserstofferzeugung (DE-588)4189271-9 gnd rswk-swf Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Wasserstoffenergietechnik (DE-588)4121905-3 gnd rswk-swf Elektrolyse (DE-588)4014288-7 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Wasserstofferzeugung (DE-588)4189271-9 s Elektrolyse (DE-588)4014288-7 s DE-604 Wasserstoffenergietechnik (DE-588)4121905-3 s Erneuerbare Energien (DE-588)4068598-6 s Godula-Jopek, Agata (DE-588)1027014003 edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-67652-1 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-67651-4 Erscheint auch als Online-Ausgabe, PDF 978-3-527-67653-8 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4783425&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027906341&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hydrogen production by electrolysis Wasserstofferzeugung (DE-588)4189271-9 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd Elektrolyse (DE-588)4014288-7 gnd
subject_GND	(DE-588)4189271-9 (DE-588)4068598-6 (DE-588)4121905-3 (DE-588)4014288-7 (DE-588)4143413-4
title	Hydrogen production by electrolysis
title_auth	Hydrogen production by electrolysis
title_exact_search	Hydrogen production by electrolysis
title_full	Hydrogen production by electrolysis ed. by Agata Godula-Jopek
title_fullStr	Hydrogen production by electrolysis ed. by Agata Godula-Jopek
title_full_unstemmed	Hydrogen production by electrolysis ed. by Agata Godula-Jopek
title_short	Hydrogen production
title_sort	hydrogen production by electrolysis
title_sub	by electrolysis
topic	Wasserstofferzeugung (DE-588)4189271-9 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd Elektrolyse (DE-588)4014288-7 gnd
topic_facet	Wasserstofferzeugung Erneuerbare Energien Wasserstoffenergietechnik Elektrolyse Aufsatzsammlung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4783425&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027906341&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT godulajopekagata hydrogenproductionbyelectrolysis

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