Verfügbarkeit: Hydrogen in automotive engineering

Hydrogen in automotive engineering: production, storage, application

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Klell, Manfred (VerfasserIn), Eichlseder, Helmut (VerfasserIn), Trattner, Alexander (VerfasserIn)
Format:	Buch
Sprache:	English German
Veröffentlicht:	Wiesbaden, Germany Springer [2023]
Schlagworte:	Alternativkraftstoff Kraftfahrzeug Fahrzeugantrieb Wasserstoff Wasserstoffmotor Wasserstoffenergietechnik Brennstoffzelle CO2 emission automotive engineering calorific value chemical properties combustion combustion engines compression cryogenic storage efficiency embrittlement fuel cell technology hydrogen liquefaction metallurgy refinery process safety test bench standard potential standards state variables thermodynamics
Online-Zugang:	Inhaltstext http://www.springer.com/ Inhaltsverzeichnis
Beschreibung:	xviii, 308 Seiten Illustrationen, Diagramme 24 cm x 16.8 cm
ISBN:	9783658350604

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Datensatz im Suchindex

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adam_text	CONTENTS 1 ENERGY REVOLUTION AND HYDROGEN ECONOMY ................................................ 1 1.1 VISION ....................................................................................................... 1 1.2 MOTIVATION ............................................................................................... 2 1.2.1 POPULATION, ENERGY DEMAND AND RESOURCES ............................. 2 1.2.2 EMISSION, IMISSION AND HEALTH .................................................. 5 1.2.3 GREENHOUSE EFFECT, GLOBAL WARMING AND THE ENVIRONMENT ... 7 1.3 IMPLEMENTATION ........................................................................................ 10 1.3.1 TECHNOLOGICAL APPROACHES ......................................................... 10 1.3.2 ELECTRO MOBILITY .......................................................................... 11 1.3.3 ENERGY REVOLUTION AND HYDROGEN ECONOMY IN AUSTRIA ........... 19 2 HISTORICAL NOTES ................................................................................................. 29 3 FUNDAMENTALS .................................................................................................... 43 3.1 OCCURRENCE ............................................................................................... 43 3.2 THERMODYNAMIC STATE ............................................................................. 44 3.3 SUBSTANCE PROPERTIES ................................................................................ 51 3.4 CHEMICAL PROPERTIES ................................................................................. 53 3.4.1 ISOTOPES ....................................................................................... 53 3.4.2 ATOMIC SPIN ................................................................................ 54 3.4.3 SPECTRAL LINES ............................................................................. 56 3.5 CHEMICAL COMPOUNDS ............................................................................. 56 3.5.1 HYDRIDES ..................................................................................... 57 3.5.2 COMPOUNDS WITH CARBON ........................................................... 59 3.5.3 DECOMPOSITION OF HYDROGEN ..................................................... 60 3.6 COMBUSTION .............................................................................................. 61 3.6.1 GROSS REACTION EQUATION ........................................................... 62 3.6.2 CHEMICAL EQUILIBRIUM ................................................................ 64 3.6.3 REACTION KINETICS ....................................................................... 66 XVI CONTENTS 4 PRODUCTION ........................................................................................................... 69 4.1 OVERVIEW ..................................................................................................... 69 4.2 ELECTROLYTIC SPLITTING OF WATER .................................................................. 70 4.2.1 FUNDAMENTALS .............................................................................. 70 4.2.2 ELECTROLYSIS SYSTEMS ................................................................... 79 4.2.3 POWER-TO-GAS ............................................................................... 87 4.3 REFORMING ................................................................................................... 89 4.3.1 STEAM REFORMING ........................................................................ 90 4.3.2 PARTIAL OXIDATION ......................................................................... 91 4.3.3 AUTOTHERMAL REFORMING .............................................................. 92 4.4 GASIFICATION ................................................................................................. 93 4.5 PURIFICATION .................................................................................................. 95 4.5.1 PURIFICATION OF FEEDSTOCK ............................................................ 96 4.5.2 PURIFICATION OF THE FINAL PRODUCT ................................................ 97 4.6 DIRECT CRACKING OF HYDROCARBONS ............................................................. 98 4.7 CHEMICAL SPLITTING OF WATER ...................................................................... 99 4.8 BIOLOGICAL PRODUCTION PROCESSES ............................................................... 102 4.8,1 ENZYMES FOR HYDROGEN PRODUCTION ........................................... 102 4.8.2 PHOTOLYSIS ..................................................................................... 103 4.8,3 FERMENTATION ................................................................................ 104 4.9 HYDROGEN AS A BY-PRODUCT ......................................................................... 105 4.9.1 CHLORINE-ALKALI ELECTROLYSIS ....................................................... 105 4.9.2 GASOLINE REFORMING .................................................................... 106 4.9.3 ETHENE PRODUCTION ....................................................................... 106 5 STORAGE AND TRANSPORT ...................................................................................... 107 5.1 OVERVIEW ................................................................................................... 107 5.2 GASEOUS STORAGE ....................................................................................... 112 5.2.1 COMPRESSION AND EXPANSION ...................................................... 112 5.2.2 TANK SYSTEMS AND INFRASTRUCTURE ................................................ 114 5.3 LIQUID STORAGE .......................................................................................... 118 5.3.1 LIQUEFACTION AND COMPRESSION ................................................... 119 5.3.2 TANK SYSTEMS AND INFRASTRUCTURE ................................................ 123 5.4 HYBRID STORAGE .......................................................................................... 129 5.5 STORAGE IN PHYSICAL AND CHEMICAL COMPOUNDS ...................................... 131 5.5.1 PHYSICAL AND CHEMICAL ADSORPTION ............................................ 132 5.5.2 CHEMICAL ABSORPTION .................................................................. 133 6 FUEL CELLS ............................................................................................................. 137 6.1 PRINCIPLE AND CHARACTERISTICS OF THE FUEL CELL ......................................... 139 6.2 TYPES OF FUEL CELLS .................................................................................. 147 6.3 DESIGN OF FUEL CELLS ................................................................................. 158 CONTENTS XVII 6.3.1 SINGLE CELL .................................................................................. 158 6.3.2 CELL STACK ...................................................................................... 161 6.3.3 FUEL CELL SYSTEM ........................................................................... 163 6.4 APPLICATION IN AUTOMOTIVE ENGINEERING ................................................. 172 6.4.1 POWERTRAIN TYPES ....................................................................... 172 6.4.2 VEHICLES ...................................................................................... 174 6.5 OTHER APPLICATIONS ................................................................................... 183 6.5.1 PORTABLE FUEL CELLS ..................................................................... 184 6.5.2 STATIONARY FUEL CELLS .................................................................. 185 6.5.3 MOBILE FUEL CELLS ON WATER ........................................................ 188 6.5.4 MOBILE FUEL CELLS ON AIR ............................................................ 189 7 INTERNAL COMBUSTION ENGINES ......................................................................... 193 7.1 RELEVANT PROPERTIES OF HYDROGEN IN INTERNAL COMBUSTION ENGINES ... 194 7.2 CLASSIFICATION AND OUTLINE CHARACTERISTICS ............................................... 197 7.3 HYDROGEN OPERATION WITH EXTERNAL MIXTURE FORMATION ......................... 202 7.4 INTERNAL MIXTURE FORMATION OR DIRECT HYDROGEN INJECTION ................... 204 7.4.1 COMBUSTION BEHAVIOR WITH HYDROGEN DIRECT INJECTION ............ 208 7.4.2 CHARGE STRATIFICATION ................................................................... 210 7.4.3 COMBUSTION CONTROL .................................................................... 213 7.4.4 COMBUSTION WITH AUTO-IGNITION ................................................. 215 7.5 VEHICLES WITH HYDROGEN ENGINES ............................................................ 216 7.6 OPERATION WITH MIXTURES OF HYDROGEN AND METHANE .............................. 229 7.6.1 EFFECTS ON COMBUSTION ............................................................... 235 7.6.2 OPERATING STRATEGIES .................................................................... 240 7.6.3 CONSTRUCTION OF A PROTOTYPE VEHICLE .......................................... 241 8 FURTHER APPLICATIONS ........................................................................................ 251 8.1 HABER-BOSCH PROCESS ................................................................................ 251 8.2 HYDROFINING ............................................................................................... 254 8.3 HYDROCRACKING .......................................................................................... 254 8.4 FISCHER-TROPSCH PROCESS ........................................................................... 255 8.5 METHANOL PRODUCTION ................................................................................ 255 8.6 SEMICONDUCTOR INDUSTRY ............................................................................ 256 8.7 ANALYTICAL CHEMISTRY ................................................................................ 257 8.8 FOOD CHEMISTRY ........................................................................................ 257 8.9 WATER TREATMENT ....................................................................................... 258 8.10 REDUCTION AND TREATMENT OF METALS ........................................................ 258 8.11 WELDING AND CUTTING ................................................................................ 259 8.12 ENERGY TECHNOLOGY AND AUTOMOTIVE ENGINEERING ................................. 259 XVIII CONTENTS 9 MATERIALS, LAW AND SAFETY ................................................................................ 263 9.1 MATERIALS ................................................................................................... 263 9.2 LAW AND SAFETY ......................................................................................... 265 9.2.1 REGULATIONS AND DIRECTIVES IN THE EU ........................................ 266 9.2.2 APPROVAL OF MOTOR VEHICLES IN THE EU ..................................... 272 9.2.3 STANDARDS AND TECHNICAL RULES ................................................... 275 9.2.4 COMPARATIVE FIRE TEST FOR VEHICLE TANKS .................................. 277 9.2.5 TEST STANDS FOR HYDROGEN APPLICATIONS .................................... 278 9.2.6 SAFETY AT HYCENTA ...................................................................... 284 LITERATURE .................................................................................................................... 291
adam_txt	CONTENTS 1 ENERGY REVOLUTION AND HYDROGEN ECONOMY . 1 1.1 VISION . 1 1.2 MOTIVATION . 2 1.2.1 POPULATION, ENERGY DEMAND AND RESOURCES . 2 1.2.2 EMISSION, IMISSION AND HEALTH . 5 1.2.3 GREENHOUSE EFFECT, GLOBAL WARMING AND THE ENVIRONMENT . 7 1.3 IMPLEMENTATION . 10 1.3.1 TECHNOLOGICAL APPROACHES . 10 1.3.2 ELECTRO MOBILITY . 11 1.3.3 ENERGY REVOLUTION AND HYDROGEN ECONOMY IN AUSTRIA . 19 2 HISTORICAL NOTES . 29 3 FUNDAMENTALS . 43 3.1 OCCURRENCE . 43 3.2 THERMODYNAMIC STATE . 44 3.3 SUBSTANCE PROPERTIES . 51 3.4 CHEMICAL PROPERTIES . 53 3.4.1 ISOTOPES . 53 3.4.2 ATOMIC SPIN . 54 3.4.3 SPECTRAL LINES . 56 3.5 CHEMICAL COMPOUNDS . 56 3.5.1 HYDRIDES . 57 3.5.2 COMPOUNDS WITH CARBON . 59 3.5.3 DECOMPOSITION OF HYDROGEN . 60 3.6 COMBUSTION . 61 3.6.1 GROSS REACTION EQUATION . 62 3.6.2 CHEMICAL EQUILIBRIUM . 64 3.6.3 REACTION KINETICS . 66 XVI CONTENTS 4 PRODUCTION . 69 4.1 OVERVIEW . 69 4.2 ELECTROLYTIC SPLITTING OF WATER . 70 4.2.1 FUNDAMENTALS . 70 4.2.2 ELECTROLYSIS SYSTEMS . 79 4.2.3 POWER-TO-GAS . 87 4.3 REFORMING . 89 4.3.1 STEAM REFORMING . 90 4.3.2 PARTIAL OXIDATION . 91 4.3.3 AUTOTHERMAL REFORMING . 92 4.4 GASIFICATION . 93 4.5 PURIFICATION . 95 4.5.1 PURIFICATION OF FEEDSTOCK . 96 4.5.2 PURIFICATION OF THE FINAL PRODUCT . 97 4.6 DIRECT CRACKING OF HYDROCARBONS . 98 4.7 CHEMICAL SPLITTING OF WATER . 99 4.8 BIOLOGICAL PRODUCTION PROCESSES . 102 4.8,1 ENZYMES FOR HYDROGEN PRODUCTION . 102 4.8.2 PHOTOLYSIS . 103 4.8,3 FERMENTATION . 104 4.9 HYDROGEN AS A BY-PRODUCT . 105 4.9.1 CHLORINE-ALKALI ELECTROLYSIS . 105 4.9.2 GASOLINE REFORMING . 106 4.9.3 ETHENE PRODUCTION . 106 5 STORAGE AND TRANSPORT . 107 5.1 OVERVIEW . 107 5.2 GASEOUS STORAGE . 112 5.2.1 COMPRESSION AND EXPANSION . 112 5.2.2 TANK SYSTEMS AND INFRASTRUCTURE . 114 5.3 LIQUID STORAGE . 118 5.3.1 LIQUEFACTION AND COMPRESSION . 119 5.3.2 TANK SYSTEMS AND INFRASTRUCTURE . 123 5.4 HYBRID STORAGE . 129 5.5 STORAGE IN PHYSICAL AND CHEMICAL COMPOUNDS . 131 5.5.1 PHYSICAL AND CHEMICAL ADSORPTION . 132 5.5.2 CHEMICAL ABSORPTION . 133 6 FUEL CELLS . 137 6.1 PRINCIPLE AND CHARACTERISTICS OF THE FUEL CELL . 139 6.2 TYPES OF FUEL CELLS . 147 6.3 DESIGN OF FUEL CELLS . 158 CONTENTS XVII 6.3.1 SINGLE CELL . 158 6.3.2 CELL STACK . 161 6.3.3 FUEL CELL SYSTEM . 163 6.4 APPLICATION IN AUTOMOTIVE ENGINEERING . 172 6.4.1 POWERTRAIN TYPES . 172 6.4.2 VEHICLES . 174 6.5 OTHER APPLICATIONS . 183 6.5.1 PORTABLE FUEL CELLS . 184 6.5.2 STATIONARY FUEL CELLS . 185 6.5.3 MOBILE FUEL CELLS ON WATER . 188 6.5.4 MOBILE FUEL CELLS ON AIR . 189 7 INTERNAL COMBUSTION ENGINES . 193 7.1 RELEVANT PROPERTIES OF HYDROGEN IN INTERNAL COMBUSTION ENGINES . 194 7.2 CLASSIFICATION AND OUTLINE CHARACTERISTICS . 197 7.3 HYDROGEN OPERATION WITH EXTERNAL MIXTURE FORMATION . 202 7.4 INTERNAL MIXTURE FORMATION OR DIRECT HYDROGEN INJECTION . 204 7.4.1 COMBUSTION BEHAVIOR WITH HYDROGEN DIRECT INJECTION . 208 7.4.2 CHARGE STRATIFICATION . 210 7.4.3 COMBUSTION CONTROL . 213 7.4.4 COMBUSTION WITH AUTO-IGNITION . 215 7.5 VEHICLES WITH HYDROGEN ENGINES . 216 7.6 OPERATION WITH MIXTURES OF HYDROGEN AND METHANE . 229 7.6.1 EFFECTS ON COMBUSTION . 235 7.6.2 OPERATING STRATEGIES . 240 7.6.3 CONSTRUCTION OF A PROTOTYPE VEHICLE . 241 8 FURTHER APPLICATIONS . 251 8.1 HABER-BOSCH PROCESS . 251 8.2 HYDROFINING . 254 8.3 HYDROCRACKING . 254 8.4 FISCHER-TROPSCH PROCESS . 255 8.5 METHANOL PRODUCTION . 255 8.6 SEMICONDUCTOR INDUSTRY . 256 8.7 ANALYTICAL CHEMISTRY . 257 8.8 FOOD CHEMISTRY . 257 8.9 WATER TREATMENT . 258 8.10 REDUCTION AND TREATMENT OF METALS . 258 8.11 WELDING AND CUTTING . 259 8.12 ENERGY TECHNOLOGY AND AUTOMOTIVE ENGINEERING . 259 XVIII CONTENTS 9 MATERIALS, LAW AND SAFETY . 263 9.1 MATERIALS . 263 9.2 LAW AND SAFETY . 265 9.2.1 REGULATIONS AND DIRECTIVES IN THE EU . 266 9.2.2 APPROVAL OF MOTOR VEHICLES IN THE EU . 272 9.2.3 STANDARDS AND TECHNICAL RULES . 275 9.2.4 COMPARATIVE FIRE TEST FOR VEHICLE TANKS . 277 9.2.5 TEST STANDS FOR HYDROGEN APPLICATIONS . 278 9.2.6 SAFETY AT HYCENTA . 284 LITERATURE . 291
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author	Klell, Manfred Eichlseder, Helmut Trattner, Alexander
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id	DE-604.BV047608597
illustrated	Illustrated
index_date	2024-07-03T18:39:10Z
indexdate	2024-07-10T09:16:04Z
institution	BVB
institution_GND	(DE-588)1043386068
isbn	9783658350604
language	English German
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032993544
oclc_num	1350779296
open_access_boolean
owner	DE-29T DE-703
owner_facet	DE-29T DE-703
physical	xviii, 308 Seiten Illustrationen, Diagramme 24 cm x 16.8 cm
publishDate	2023
publishDateSearch	2023
publishDateSort	2023
publisher	Springer
record_format	marc
spelling	Klell, Manfred Verfasser (DE-588)12406129X aut Wasserstoff in der Fahrzeugtechnik Hydrogen in automotive engineering production, storage, application Manfred Klell, Helmut Eichlseder, Alexander Trattner Wiesbaden, Germany Springer [2023] xviii, 308 Seiten Illustrationen, Diagramme 24 cm x 16.8 cm txt rdacontent n rdamedia nc rdacarrier Alternativkraftstoff (DE-588)4125883-6 gnd rswk-swf Kraftfahrzeug (DE-588)4073757-3 gnd rswk-swf Fahrzeugantrieb (DE-588)4123177-6 gnd rswk-swf Wasserstoff (DE-588)4064784-5 gnd rswk-swf Wasserstoffmotor (DE-588)4516622-5 gnd rswk-swf Wasserstoffenergietechnik (DE-588)4121905-3 gnd rswk-swf Brennstoffzelle (DE-588)4008195-3 gnd rswk-swf CO2 emission automotive engineering calorific value chemical properties combustion combustion engines compression cryogenic storage efficiency embrittlement fuel cell technology hydrogen liquefaction metallurgy refinery process safety test bench standard potential standards state variables thermodynamics Wasserstoffmotor (DE-588)4516622-5 s Kraftfahrzeug (DE-588)4073757-3 s DE-604 Fahrzeugantrieb (DE-588)4123177-6 s Brennstoffzelle (DE-588)4008195-3 s Wasserstoffenergietechnik (DE-588)4121905-3 s Alternativkraftstoff (DE-588)4125883-6 s Wasserstoff (DE-588)4064784-5 s Eichlseder, Helmut Verfasser (DE-588)133307905 aut Trattner, Alexander Verfasser (DE-588)115694824X aut Springer Fachmedien Wiesbaden (DE-588)1043386068 pbl Erscheint auch als Online-Ausgabe 978-3-658-35061-1 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=729c4ca9b8bf40a785c859451c949556&prov=M&dok_var=1&dok_ext=htm Inhaltstext X:MVB http://www.springer.com/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032993544&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20210630 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Klell, Manfred Eichlseder, Helmut Trattner, Alexander Hydrogen in automotive engineering production, storage, application Alternativkraftstoff (DE-588)4125883-6 gnd Kraftfahrzeug (DE-588)4073757-3 gnd Fahrzeugantrieb (DE-588)4123177-6 gnd Wasserstoff (DE-588)4064784-5 gnd Wasserstoffmotor (DE-588)4516622-5 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd Brennstoffzelle (DE-588)4008195-3 gnd
subject_GND	(DE-588)4125883-6 (DE-588)4073757-3 (DE-588)4123177-6 (DE-588)4064784-5 (DE-588)4516622-5 (DE-588)4121905-3 (DE-588)4008195-3
title	Hydrogen in automotive engineering production, storage, application
title_alt	Wasserstoff in der Fahrzeugtechnik
title_auth	Hydrogen in automotive engineering production, storage, application
title_exact_search	Hydrogen in automotive engineering production, storage, application
title_exact_search_txtP	Hydrogen in automotive engineering production, storage, application
title_full	Hydrogen in automotive engineering production, storage, application Manfred Klell, Helmut Eichlseder, Alexander Trattner
title_fullStr	Hydrogen in automotive engineering production, storage, application Manfred Klell, Helmut Eichlseder, Alexander Trattner
title_full_unstemmed	Hydrogen in automotive engineering production, storage, application Manfred Klell, Helmut Eichlseder, Alexander Trattner
title_short	Hydrogen in automotive engineering
title_sort	hydrogen in automotive engineering production storage application
title_sub	production, storage, application
topic	Alternativkraftstoff (DE-588)4125883-6 gnd Kraftfahrzeug (DE-588)4073757-3 gnd Fahrzeugantrieb (DE-588)4123177-6 gnd Wasserstoff (DE-588)4064784-5 gnd Wasserstoffmotor (DE-588)4516622-5 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd Brennstoffzelle (DE-588)4008195-3 gnd
topic_facet	Alternativkraftstoff Kraftfahrzeug Fahrzeugantrieb Wasserstoff Wasserstoffmotor Wasserstoffenergietechnik Brennstoffzelle
url	http://deposit.dnb.de/cgi-bin/dokserv?id=729c4ca9b8bf40a785c859451c949556&prov=M&dok_var=1&dok_ext=htm http://www.springer.com/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032993544&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT klellmanfred wasserstoffinderfahrzeugtechnik AT eichlsederhelmut wasserstoffinderfahrzeugtechnik AT trattneralexander wasserstoffinderfahrzeugtechnik AT springerfachmedienwiesbaden wasserstoffinderfahrzeugtechnik AT klellmanfred hydrogeninautomotiveengineeringproductionstorageapplication AT eichlsederhelmut hydrogeninautomotiveengineeringproductionstorageapplication AT trattneralexander hydrogeninautomotiveengineeringproductionstorageapplication AT springerfachmedienwiesbaden hydrogeninautomotiveengineeringproductionstorageapplication

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