Verfügbarkeit: Power-to-gas :: THWS Bibkatalog

Power-to-gas: renewable hydrogen economy for the energy transition

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Bibliographische Detailangaben
1. Verfasser:	Boudellal, Méziane (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2023]
Ausgabe:	2nd Edition
Schriftenreihe:	De Gruyter graduate
Schlagworte:	Erneuerbare Energien Power-to-Gas Wasserstoffenergietechnik Economy, Power-to-Gas Hydrogen Energy Material Science Materialwissenschaft Renewable Energies TB: Textbook Wasserstoff-Energie Wirtschaft
Online-Zugang:	https://www.degruyter.com/isbn/9783110781809 Inhaltsverzeichnis
Beschreibung:	XVI, 249 Seiten Illustrationen, Diagramme 24 cm x 17 cm
ISBN:	9783110781809 3110781808

Internformat

MARC


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653			\|a Hydrogen Energy
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653			\|a Renewable Energies
653			\|a TB: Textbook
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653			\|a Wirtschaft
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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE TO THE FIRST EDITION - VII PREFACE TO THE SECOND EDITION - IX INTRODUCTION - 1 1 1.1 1.1.1 1.1.2 1.1.3 1.1.4 1.1.5 1.2 1.2.1 1.2.2 1.2.3 GLOBAL ENERGY CONSUMPTION - 2 STRONG GROWTH IN ENERGY DEMAND - 2 EVOLUTION OF TOTAL ENERGY CONSUMPTION - 2 ENERGY STORAGE - 2 ENERGY CONSUMPTION - 5 PROJECTION OF THE EVOLUTION OF WORLD ENERGY CONSUMPTION - 6 POTENTIAL FOR RENEWABLE ENERGY SOURCES - 6 ELECTRICITY PRODUCTION AND CONSUMPTION - 9 POWER GENERATION - 9 INCREASE OF ELECTRICITY CONSUMPTION ---- 11 SIGNIFICANT GROWTH IN ELECTRICITY GENERATION FROM RENEWABLE SOURCES - 14 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.4 1.5 1.5.1 1.6 ELECTRICITY MARKET - 15 ELECTRICITY NETWORKS - 15 NETWORK STABILITY - 16 EUROPEAN ELECTRICITY NETWORKS - 18 NORTH AMERICAN ELECTRICITY NETWORK - 19 OTHER NETWORKS - 20 CHINESE WORLD GLOBAL NETWORK - 20 NEED FOR A STABLE NETWORK - 20 ELECTRICITY MARKET STRUCTURE - 21 STRUCTURE OF ELECTRICITY PRICES - 23 HIGH ELECTRICITY PRICES FOR CONSUMERS - 23 RENEWABLE ELECTRICITY: A NECESSITY - 26 REFERENCES - 26 2 2.1 2.1.1 2.1.2 2.1.3 2.1.4 2.1.5 2.1.6 ELECTRICITY OF RENEWABLE ORIGIN - 27 TECHNOLOGIES - 27 WIND ENERGY - 27 PHOTOVOLTAIC - 31 SOLAR CONCENTRATION - 33 MARINE ENERGIES - 35 BIOMASS, GEOTHERMAL ENERGY - 38 RENEWABLE ELECTRICITY PRODUCTION RECORDS - 38 XII - CONTENTS 2.1.7 2.1.8 2.2 2.2.1 2.2.2 2.2.3 2.2.4 2.2.5 2.3 2.3.1 2.3.2 2.3.3 2.3.4 2.3.5 2.3.6 COMPARISON OF ELECTRICITY COSTS BY ORIGIN - 39 ENERGY TRANSITION AND RENEWABLE ENERGY - 40 VARIABILITY IN PRODUCTION AND ELECTRICITY CONSUMPTION ---- 41 PRODUCTION AND CONSUMPTION FORECASTS ---- 42 ELECTRICITY FLOW MANAGEMENT - 42 THE NEED FOR STORAGE ---- 43 ESTIMATION OF SURPLUS ELECTRICITY ---- 43 SIMULATIONS - 44 ELECTRICITY STORAGE - 44 WHY STORE ELECTRICITY? ---- 44 CHARACTERISTICS OF A STORAGE SYSTEM - 45 STORAGE TECHNOLOGIES ---- 45 COMPARISON OF AVAILABLE ELECTRICITY STORAGE SOLUTIONS - 56 CHARACTERISTICS OF ELECTRICITY STORAGE TECHNOLOGIES - 56 ELECTRICITY STORAGE REQUIREMENTS - 58 REFERENCES ---- 59 3 3.1 3.2 3.2.1 3.2.2 3.2.3 3.2.4 PRINCIPLE OF POWER-TO-GAS - 60 BASIC LAYOUT - 60 HYDROGEN ---- 61 PROPERTIES ---- 63 SECURITY - 65 INDUSTRIAL PRODUCTION - 65 CARBON-FREE INDUSTRY AND ENERGY THROUGH CARBON CAPTURE AND STORAGE -----66 REFERENCE ---- 67 4 4.1 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.3 4.3.1 4.3.2 4.3.3 4.3.4 4.3.5 ELECTROLYSIS - 68 BASIC PRINCIPLE - 68 CHEMICAL REACTIONS ---- 68 CALCULATION FROM THERMODYNAMIC DATA - 70 OPERATING VOLTAGE - CURRENT DENSITY - 73 OPERATING PARAMETERS ---- 74 CELL YIELD - 74 WATER DISSOCIATION ENERGY - 75 WATER CONSUMPTION ---- 76 ALKALINE ELECTROLYSER - 77 HISTORY AND INDUSTRIAL DEVELOPMENT - 77 OPERATING PARAMETERS - 78 STRUCTURE OF AN ALKALINE ELECTROLYSER ---- 81 AUXILIARY EQUIPMENT ---- 81 INDUSTRIAL EQUIPMENT ---- 83 CONTENTS - - XIII 4.4 PEM ELECTROLYSER ----- 87 4.4.1 PRINCIPLE ----- 87 4.4.2 PEM ELECTROLYSER STRUCTURE ------88 4.4.3 BALANCE OF PLANT ----- 89 4.4.4 INFLUENCE OF THE CATALYST ------ 90 4.4.5 OPERATING PARAMETERS ------ 92 4.4.6 INDUSTRIAL EQUIPMENT ----- 93 4.4.7 WATER TREATMENT AND CONSUMPTION - 95 4.5 HIGH-TEMPERATURE ELECTROLYSER - 96 4.6 OTHER TECHNOLOGIES ----- 99 4.6.1 MICROBIAL ELECTROLYSIS ----- 99 4.6.2 HIGH-FREQUENCY ELECTROLYSIS -----100 4.6.3 PHOTOELECTROLYSIS (PHOTOLYSIS) ----- 100 4.6.4 SOLAR HYDROGEN ----- 101 4.7 HYDROGEN PURIFICATION - 101 4.7.1 ELIMINATION OF KOH ----- 101 4.7.2 OXYGEN REMOVAL - 101 4.7.3 DEHYDRATION ----- 103 4.8 TECHNOLOGY COMPARISON - 103 4.8.1 CHARACTERISTICS OF ELECTROLYSERS - 103 4.8.2 ALKALINE EXCHANGE MEMBRANE (AEM) ELECTROLYSER: THE BEST COMPROMISE? - 104 5 POWER-TO-GAS STRATEGIES - 107 5.1 HYDROGEN TRANSPORTATION - 107 5.1.1 COMPRESSION OF HYDROGEN - 107 5.1.2 HYDROGEN LIQUEFACTION ---- 114 5.2 HYDROGEN TRANSPORTATION - 115 5.2.1 TRANSPORTATION DEDICATED TO HYDROGEN ---- 115 5.2.2 DIRECT INJECTION OF HYDROGEN INTO THE NATURAL GAS NETWORK - 118 5.3 HYDROGEN STORAGE - 121 5.3.1 COMPRESSED IN TANKS ----- 121 5.3.2 IN LIQUID FORM ----- 121 5.3.3 IN METAL HYDRIDES ----- 122 5.3.4 STORAGE IN CAVERNS - 125 5.3.5 IN NATURAL GAS RESERVES - 126 5.3.6 OTHER STORAGE METHODS - 127 5.4 CONVERSION OF HYDROGEN INTO METHANE: METHANATION - 130 5.4.1 THERMOCHEMICAL METHANATION - 130 5.4.2 CO-ELECTROLYSIS ----- 131 XIV - CONTENTS 5.4.3 5.4.4 5.4.5 5.5 5.5.1 5.5.2 5.5.3 5.5.4 5.6 5.6.1 5.6.2 5.7 5.7.1 5.7.2 5.7.3 BIOLOGICAL METHANATION - 133 METHANISATION AND SYNERGY WITH POWER-TO-GAS ---- 136 METHANATION, THE KEY TO ELECTRICITY FROM RENEWABLE SOURCES? - 136 USE OF HYDROGEN OR METHANE PRODUCED ---- 137 INDUSTRY - 137 ENERGY: CONVERSION INTO ELECTRICITY - 138 MOBILITY ---- 142 DOMESTIC OR COMMERCIAL USE - 155 HYDROGEN AS A COMMODITY: IMPORT/EXPORT ---- 155 LOW CO 2 HYDROGEN: AUSTRALIA - 156 LIMITATIONS ---- 157 HYDROGEN, AMMONIA OR METHANOL? ---- 157 AMMONIA ---- 157 METHANOL ---- 158 FUEL COMPARISON - 159 REFERENCES - 160 6 6.1 6.1.1 6.1.2 6.1.3 6.1.4 6.2 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 6.3 BEYOND POWER-TO-GAS - 161 POWER-TO-LIQUID - 161 SYNTHETIC CHEMICALS AND FUELS ---- 161 POWER-TO-LIQUID - 161 GAS-TO-LIQUID ---- 162 PTL EXPERIMENTATIONS - 162 POWER-TO-HEAT - 167 PRINCIPLE ---- 167 HEAT STORAGE ---- 168 URBAN EXPERIMENTS - 168 EXPERIMENTS IN INDUSTRY OR AGRICULTURE ---- 168 DOMESTIC EXPERIMENTS - 170 COMBINATION OF PTH AND PTL - 171 REFERENCE ---- 171 7 7.1 7.1.1 7.1.2 7.1.3 7.1.4 7.2 7.2.1 7.2.2 7.2.3 POWER-TO-GAS EXPERIMENTS - 172 EARLY DEVELOPMENTS ---- 172 HYSOLAR PROGRAMME (1986-1995) ---- 172 PROJECTS AT THE LEVEL OF A BUILDING ---- 173 EXPLORATORY PROJECTS - 174 FIRST FIELD EXPERIMENTS ---- 174 RESEARCH PROJECTS - 176 THE ZSW INSTITUTE IN STUTTGART ---- 176 PROJECT WIND2H2 ---- 177 NATIONAL PROGRAMMES OR INTERNATIONAL COOPERATION - 179 CONTENTS - - XV 7.3 7.3.1 7.3.2 7.3.3 7.4 7.4.1 7.4.2 7.5 PILOT PROJECTS ---- 180 GERMANY - THE LEADER - 181 FRANCE - 199 OTHER COUNTRIES -----203 COMPARISON OF CURRENT PROJECTS - 212 TECHNOLOGIES - 212 APPLICATIONS - 213 EXPERIMENTAL RESULTS - 213 8 8.1 FINANCIAL APPROACH TO POWER-TO-GAS - 215 HYDROGEN CONVERSION CAPACITY VERSUS EXPECTED SURPLUSES OF RENEWABLE ELECTRICITY - 215 8.1.1 8.1.2 8.2 8.2.1 8.3 8.3.1 8.3.2 8.3.3 8.3.4 8.3.5 8.3.6 8.3.7 8.3.8 8.4 8.4.1 8.4.2 8.4.3 8.5 CAPACITY OF ELECTROLYSERS - 215 POWER-TO-GAS-TO-POWER ---- 216 POWER-TO-GAS ECONOMIC EVALUATIONS - 217 COST OF OPERATIONAL FACILITIES - 218 BUSINESS MODEL FOR POWER-TO-GAS - 219 ANALYSED SYSTEM - 219 TECHNICAL AND ECONOMIC ANALYSIS - 220 CAPEX ---- 222 OPEX ---- 223 REVENUES ---- 223 LEVEL I ISED COST OF HYDROGEN - 224 ABATEMENT OF HYDROGEN - 224 COMPARISON WITH OTHER ELECTRICITY STORAGE TECHNOLOGIES - 226 AVAILABILITY AND PRICES OF CRITICAL RAW MATERIALS (CRM) - 227 DEPENDENCE ON A FEW COUNTRIES FOR EXTRACTION - 227 DEPENDENCE ON CHINA FOR PROCESSING - 229 AVAILABILITY VERSUS NEEDS - 229 CAPEX AND OPEX IN A DISRUPTED WORLD ECONOMY ---- 230 REFERENCES - 231 9 9.1 9.1.1 9.1.2 9.1.3 9.1.4 9.2 ROLE OF POWER-TO-GAS IN ENERGY TRANSITION - 232 IMPACT OF POWER-TO-GAS ON ENERGY SYSTEMS - 232 LEGISLATION AND REGULATIONS - 232 A NEW ARCHITECTURE FOR ENERGY NETWORKS ---- 233 NEED FOR DECENTRALISATION - 234 CONVERGENCE OF ELECTRICITY AND GAS GRIDS - SECTOR COUPLING - 239 POWER-TO-GAS TECHNOLOGY: A CONTRIBUTION TO THE PROTECTION OF THE ENVIRONMENT - 239 XVI - CONTENTS 9.3 9.3.1 9.4 HYDROGEN CIVILISATION OR ELECTRON CIVILISATION? - 240 WILL THERE BE ENOUGH HYDROGEN? ---- 241 HOW WOULD AN EFFICIENT HYDROGEN STRATEGY LOOK LIKE? - 242 REFERENCES - 243 ACRONYMS - 245 INDEX - 247
adam_txt	CONTENTS PREFACE TO THE FIRST EDITION - VII PREFACE TO THE SECOND EDITION - IX INTRODUCTION - 1 1 1.1 1.1.1 1.1.2 1.1.3 1.1.4 1.1.5 1.2 1.2.1 1.2.2 1.2.3 GLOBAL ENERGY CONSUMPTION - 2 STRONG GROWTH IN ENERGY DEMAND - 2 EVOLUTION OF TOTAL ENERGY CONSUMPTION - 2 ENERGY STORAGE - 2 ENERGY CONSUMPTION - 5 PROJECTION OF THE EVOLUTION OF WORLD ENERGY CONSUMPTION - 6 POTENTIAL FOR RENEWABLE ENERGY SOURCES - 6 ELECTRICITY PRODUCTION AND CONSUMPTION - 9 POWER GENERATION - 9 INCREASE OF ELECTRICITY CONSUMPTION ---- 11 SIGNIFICANT GROWTH IN ELECTRICITY GENERATION FROM RENEWABLE SOURCES - 14 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.4 1.5 1.5.1 1.6 ELECTRICITY MARKET - 15 ELECTRICITY NETWORKS - 15 NETWORK STABILITY - 16 EUROPEAN ELECTRICITY NETWORKS - 18 NORTH AMERICAN ELECTRICITY NETWORK - 19 OTHER NETWORKS - 20 CHINESE WORLD GLOBAL NETWORK - 20 NEED FOR A STABLE NETWORK - 20 ELECTRICITY MARKET STRUCTURE - 21 STRUCTURE OF ELECTRICITY PRICES - 23 HIGH ELECTRICITY PRICES FOR CONSUMERS - 23 RENEWABLE ELECTRICITY: A NECESSITY - 26 REFERENCES - 26 2 2.1 2.1.1 2.1.2 2.1.3 2.1.4 2.1.5 2.1.6 ELECTRICITY OF RENEWABLE ORIGIN - 27 TECHNOLOGIES - 27 WIND ENERGY - 27 PHOTOVOLTAIC - 31 SOLAR CONCENTRATION - 33 MARINE ENERGIES - 35 BIOMASS, GEOTHERMAL ENERGY - 38 RENEWABLE ELECTRICITY PRODUCTION RECORDS - 38 XII - CONTENTS 2.1.7 2.1.8 2.2 2.2.1 2.2.2 2.2.3 2.2.4 2.2.5 2.3 2.3.1 2.3.2 2.3.3 2.3.4 2.3.5 2.3.6 COMPARISON OF ELECTRICITY COSTS BY ORIGIN - 39 ENERGY TRANSITION AND RENEWABLE ENERGY - 40 VARIABILITY IN PRODUCTION AND ELECTRICITY CONSUMPTION ---- 41 PRODUCTION AND CONSUMPTION FORECASTS ---- 42 ELECTRICITY FLOW MANAGEMENT - 42 THE NEED FOR STORAGE ---- 43 ESTIMATION OF SURPLUS ELECTRICITY ---- 43 SIMULATIONS - 44 ELECTRICITY STORAGE - 44 WHY STORE ELECTRICITY? ---- 44 CHARACTERISTICS OF A STORAGE SYSTEM - 45 STORAGE TECHNOLOGIES ---- 45 COMPARISON OF AVAILABLE ELECTRICITY STORAGE SOLUTIONS - 56 CHARACTERISTICS OF ELECTRICITY STORAGE TECHNOLOGIES - 56 ELECTRICITY STORAGE REQUIREMENTS - 58 REFERENCES ---- 59 3 3.1 3.2 3.2.1 3.2.2 3.2.3 3.2.4 PRINCIPLE OF POWER-TO-GAS - 60 BASIC LAYOUT - 60 HYDROGEN ---- 61 PROPERTIES ---- 63 SECURITY - 65 INDUSTRIAL PRODUCTION - 65 "CARBON-FREE " INDUSTRY AND ENERGY THROUGH CARBON CAPTURE AND STORAGE -----66 REFERENCE ---- 67 4 4.1 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.2.5 4.2.6 4.3 4.3.1 4.3.2 4.3.3 4.3.4 4.3.5 ELECTROLYSIS - 68 BASIC PRINCIPLE - 68 CHEMICAL REACTIONS ---- 68 CALCULATION FROM THERMODYNAMIC DATA - 70 OPERATING VOLTAGE - CURRENT DENSITY - 73 OPERATING PARAMETERS ---- 74 CELL YIELD - 74 WATER DISSOCIATION ENERGY - 75 WATER CONSUMPTION ---- 76 ALKALINE ELECTROLYSER - 77 HISTORY AND INDUSTRIAL DEVELOPMENT - 77 OPERATING PARAMETERS - 78 STRUCTURE OF AN ALKALINE ELECTROLYSER ---- 81 AUXILIARY EQUIPMENT ---- 81 INDUSTRIAL EQUIPMENT ---- 83 CONTENTS - - XIII 4.4 PEM ELECTROLYSER ----- 87 4.4.1 PRINCIPLE ----- 87 4.4.2 PEM ELECTROLYSER STRUCTURE ------88 4.4.3 BALANCE OF PLANT ----- 89 4.4.4 INFLUENCE OF THE CATALYST ------ 90 4.4.5 OPERATING PARAMETERS ------ 92 4.4.6 INDUSTRIAL EQUIPMENT ----- 93 4.4.7 WATER TREATMENT AND CONSUMPTION - 95 4.5 HIGH-TEMPERATURE ELECTROLYSER - 96 4.6 OTHER TECHNOLOGIES ----- 99 4.6.1 MICROBIAL ELECTROLYSIS ----- 99 4.6.2 HIGH-FREQUENCY ELECTROLYSIS -----100 4.6.3 PHOTOELECTROLYSIS (PHOTOLYSIS) ----- 100 4.6.4 SOLAR HYDROGEN ----- 101 4.7 HYDROGEN PURIFICATION - 101 4.7.1 ELIMINATION OF KOH ----- 101 4.7.2 OXYGEN REMOVAL - 101 4.7.3 DEHYDRATION ----- 103 4.8 TECHNOLOGY COMPARISON - 103 4.8.1 CHARACTERISTICS OF ELECTROLYSERS - 103 4.8.2 ALKALINE EXCHANGE MEMBRANE (AEM) ELECTROLYSER: THE BEST COMPROMISE? - 104 5 POWER-TO-GAS STRATEGIES - 107 5.1 HYDROGEN TRANSPORTATION - 107 5.1.1 COMPRESSION OF HYDROGEN - 107 5.1.2 HYDROGEN LIQUEFACTION ---- 114 5.2 HYDROGEN TRANSPORTATION - 115 5.2.1 TRANSPORTATION DEDICATED TO HYDROGEN ---- 115 5.2.2 DIRECT INJECTION OF HYDROGEN INTO THE NATURAL GAS NETWORK - 118 5.3 HYDROGEN STORAGE - 121 5.3.1 COMPRESSED IN TANKS ----- 121 5.3.2 IN LIQUID FORM ----- 121 5.3.3 IN METAL HYDRIDES ----- 122 5.3.4 STORAGE IN CAVERNS - 125 5.3.5 IN NATURAL GAS RESERVES - 126 5.3.6 OTHER STORAGE METHODS - 127 5.4 CONVERSION OF HYDROGEN INTO METHANE: METHANATION - 130 5.4.1 THERMOCHEMICAL METHANATION - 130 5.4.2 CO-ELECTROLYSIS ----- 131 XIV - CONTENTS 5.4.3 5.4.4 5.4.5 5.5 5.5.1 5.5.2 5.5.3 5.5.4 5.6 5.6.1 5.6.2 5.7 5.7.1 5.7.2 5.7.3 BIOLOGICAL METHANATION - 133 METHANISATION AND SYNERGY WITH POWER-TO-GAS ---- 136 METHANATION, THE KEY TO ELECTRICITY FROM RENEWABLE SOURCES? - 136 USE OF HYDROGEN OR METHANE PRODUCED ---- 137 INDUSTRY - 137 ENERGY: CONVERSION INTO ELECTRICITY - 138 MOBILITY ---- 142 DOMESTIC OR COMMERCIAL USE - 155 HYDROGEN AS A COMMODITY: IMPORT/EXPORT ---- 155 LOW CO 2 HYDROGEN: AUSTRALIA - 156 LIMITATIONS ---- 157 HYDROGEN, AMMONIA OR METHANOL? ---- 157 AMMONIA ---- 157 METHANOL ---- 158 FUEL COMPARISON - 159 REFERENCES - 160 6 6.1 6.1.1 6.1.2 6.1.3 6.1.4 6.2 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 6.3 BEYOND POWER-TO-GAS - 161 POWER-TO-LIQUID - 161 SYNTHETIC CHEMICALS AND FUELS ---- 161 POWER-TO-LIQUID - 161 GAS-TO-LIQUID ---- 162 PTL EXPERIMENTATIONS - 162 POWER-TO-HEAT - 167 PRINCIPLE ---- 167 HEAT STORAGE ---- 168 URBAN EXPERIMENTS - 168 EXPERIMENTS IN INDUSTRY OR AGRICULTURE ---- 168 DOMESTIC EXPERIMENTS - 170 COMBINATION OF PTH AND PTL - 171 REFERENCE ---- 171 7 7.1 7.1.1 7.1.2 7.1.3 7.1.4 7.2 7.2.1 7.2.2 7.2.3 POWER-TO-GAS EXPERIMENTS - 172 EARLY DEVELOPMENTS ---- 172 HYSOLAR PROGRAMME (1986-1995) ---- 172 PROJECTS AT THE LEVEL OF A BUILDING ---- 173 EXPLORATORY PROJECTS - 174 FIRST FIELD EXPERIMENTS ---- 174 RESEARCH PROJECTS - 176 THE ZSW INSTITUTE IN STUTTGART ---- 176 PROJECT WIND2H2 ---- 177 NATIONAL PROGRAMMES OR INTERNATIONAL COOPERATION - 179 CONTENTS - - XV 7.3 7.3.1 7.3.2 7.3.3 7.4 7.4.1 7.4.2 7.5 PILOT PROJECTS ---- 180 GERMANY - THE LEADER - 181 FRANCE - 199 OTHER COUNTRIES -----203 COMPARISON OF CURRENT PROJECTS - 212 TECHNOLOGIES - 212 APPLICATIONS - 213 EXPERIMENTAL RESULTS - 213 8 8.1 FINANCIAL APPROACH TO POWER-TO-GAS - 215 HYDROGEN CONVERSION CAPACITY VERSUS EXPECTED SURPLUSES OF RENEWABLE ELECTRICITY - 215 8.1.1 8.1.2 8.2 8.2.1 8.3 8.3.1 8.3.2 8.3.3 8.3.4 8.3.5 8.3.6 8.3.7 8.3.8 8.4 8.4.1 8.4.2 8.4.3 8.5 CAPACITY OF ELECTROLYSERS - 215 POWER-TO-GAS-TO-POWER ---- 216 POWER-TO-GAS ECONOMIC EVALUATIONS - 217 COST OF OPERATIONAL FACILITIES - 218 BUSINESS MODEL FOR POWER-TO-GAS - 219 ANALYSED SYSTEM - 219 TECHNICAL AND ECONOMIC ANALYSIS - 220 CAPEX ---- 222 OPEX ---- 223 REVENUES ---- 223 LEVEL I ISED COST OF HYDROGEN - 224 ABATEMENT OF HYDROGEN - 224 COMPARISON WITH OTHER ELECTRICITY STORAGE TECHNOLOGIES - 226 AVAILABILITY AND PRICES OF CRITICAL RAW MATERIALS (CRM) - 227 DEPENDENCE ON A FEW COUNTRIES FOR EXTRACTION - 227 DEPENDENCE ON CHINA FOR PROCESSING - 229 AVAILABILITY VERSUS NEEDS - 229 CAPEX AND OPEX IN A DISRUPTED WORLD ECONOMY ---- 230 REFERENCES - 231 9 9.1 9.1.1 9.1.2 9.1.3 9.1.4 9.2 ROLE OF POWER-TO-GAS IN ENERGY TRANSITION - 232 IMPACT OF POWER-TO-GAS ON ENERGY SYSTEMS - 232 LEGISLATION AND REGULATIONS - 232 A NEW ARCHITECTURE FOR ENERGY NETWORKS ---- 233 NEED FOR DECENTRALISATION - 234 CONVERGENCE OF ELECTRICITY AND GAS GRIDS - SECTOR COUPLING - 239 POWER-TO-GAS TECHNOLOGY: A CONTRIBUTION TO THE PROTECTION OF THE ENVIRONMENT - 239 XVI - CONTENTS 9.3 9.3.1 9.4 " HYDROGEN CIVILISATION " OR ELECTRON CIVILISATION? - 240 WILL THERE BE ENOUGH HYDROGEN? ---- 241 HOW WOULD AN EFFICIENT HYDROGEN STRATEGY LOOK LIKE? - 242 REFERENCES - 243 ACRONYMS - 245 INDEX - 247
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id	DE-604.BV048809586
illustrated	Illustrated
index_date	2024-07-03T21:29:59Z
indexdate	2024-08-01T11:33:51Z
institution	BVB
institution_GND	(DE-588)10095502-2
isbn	9783110781809 3110781808
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-034075547
oclc_num	1350849365
open_access_boolean
owner	DE-29T DE-11 DE-1102 DE-634 DE-703 DE-862 DE-BY-FWS
owner_facet	DE-29T DE-11 DE-1102 DE-634 DE-703 DE-862 DE-BY-FWS
physical	XVI, 249 Seiten Illustrationen, Diagramme 24 cm x 17 cm
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	De Gruyter
record_format	marc
series2	De Gruyter graduate
spellingShingle	Boudellal, Méziane Power-to-gas renewable hydrogen economy for the energy transition Erneuerbare Energien (DE-588)4068598-6 gnd Power-to-Gas (DE-588)1047563150 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd
subject_GND	(DE-588)4068598-6 (DE-588)1047563150 (DE-588)4121905-3
title	Power-to-gas renewable hydrogen economy for the energy transition
title_alt	Power to gas
title_auth	Power-to-gas renewable hydrogen economy for the energy transition
title_exact_search	Power-to-gas renewable hydrogen economy for the energy transition
title_exact_search_txtP	Power-to-gas renewable hydrogen economy for the energy transition
title_full	Power-to-gas renewable hydrogen economy for the energy transition Méziane Boudellal
title_fullStr	Power-to-gas renewable hydrogen economy for the energy transition Méziane Boudellal
title_full_unstemmed	Power-to-gas renewable hydrogen economy for the energy transition Méziane Boudellal
title_short	Power-to-gas
title_sort	power to gas renewable hydrogen economy for the energy transition
title_sub	renewable hydrogen economy for the energy transition
topic	Erneuerbare Energien (DE-588)4068598-6 gnd Power-to-Gas (DE-588)1047563150 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd
topic_facet	Erneuerbare Energien Power-to-Gas Wasserstoffenergietechnik
url	https://www.degruyter.com/isbn/9783110781809 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034075547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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