Verfügbarkeit: Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite

Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite:

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Bibliographische Detailangaben
Beteilige Person:	Neves, André (VerfasserIn)
Format:	Hochschulschrift/Dissertation Buch
Sprache:	Englisch
Veröffentlicht:	Hamburg 2024
Schlagwörter:	Hochschulschrift
Links:	https://d-nb.info/1331344875/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035474595&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	xxii, 233 Seiten Illustrationen, Diagramme 30 cm

Internformat

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS LEBENSLAUF . DEDICATORY . ABSTRACT . . ZUSAMMENFASSUNG . LIST OF FIGURES . XI LIST OF TABLES . XVI LIST OF ABBREVIATIONS AND ACRONYMS . XIX LIST OF SYMBOLS AND OPERATORS .XX LIST OF INDEXES . XXI LIST OF UNITS .XXII LIST OF METRIC PREFIXES . XXII 1. INTRODUCTION . 1 1.1. CLIMATE CHANGE AND THE ENERGY SECTOR . 1 1.2. PRODUCTION AND USE OF RENEWABLE ENERGY . 4 1.3. HYDROGEN STORAGE IN HYDRIDES . 5 1.4. THERMODYNAMICS OF METAL HYDRIDES . 6 1.5. KINETICS IN METAL HYDRIDES . 8 1.6. THE LIBH4 AND THE LITHIUM REACTIVE HYDRIDE COMPOSITE (LI-RHC) . 12 1.7. HYDRIDE-BASED HYDROGEN STORAGE TANKS AND ADIABATIC TANK CONCEPT . 16 1.8. THE CAO/CA(OH) 2 AS A TCESM . 19 1.9. SCOPE OF THE WORK. .20 2. MATERIALS AND METHODS. 23 2.1. PREPARATION OF LI-RHC SAMPLES . 23 2.1.1. PREPARATION OF THE POWDER SAMPLES (KINETIC MODELLING) . 23 2.1.2. PREPARATION OF THE POWDER SAMPLES (UP-SCALED INVESTIGATION) . 24 2.1.3. PRESSING OF THE PELLETS . 24 2.2. CHARACTERISATION OF THE LI-RHC . 24 2.2.1. KINETICS OF THE HYDROGEN REACTIONS AND DATA HANDLING . 25 2.2.2. PHASE IDENTIFICATION . 26 2.3. MODELLING OF THE REACTIONS ' KINETICS . 26 2.3.1. IMPLEMENTATION OF THE SEPARABLE VARIABLE METHOD . 27 2.4. FINITE ELEMENT SIMULATIONS . 29 2.4.1. SIMULATION SUITE . 29 2.4.2. MAIN ASSUMPTIONS AND PHYSICAL MODELS . 29 3. KINETIC MODELLING OF THE LI-RHC SYSTEM - ABSORPTION REACTION . 45 3.1. RESULTS . 45 3.1.1. THERMODYNAMIC DATA .45 3.1.2. KINETIC DATA .46 3.1.3. DETERMINATION OF THE REACTION MODEL - G(A) .49 3.1.4. DETERMINATION OF THE TEMPERATURE DEPENDENCY - K(T) . 51 3.1.5. DETERMINATION OF THE PRESSURE DEPENDENCY - F(P) . 53 3.2. DISCUSSION . 57 3.2.1. CRITICAL ASSESSMENT OF THE THERMODYNAMIC DATA . 57 3.2.2. EFFECT OF CYCLING ON THE CAPACITY . 59 3.2.3. REACTION MODEL . 62 3.2.4. PRESSURE DEPENDENCY . 63 3.2.5. VALIDATION OF THE MODEL . 64 3.2.6. THERMODYNAMIC STABILITY AND KINETIC BEHAVIOUR: ISOKINETIC CONTOUR GRAPHS . 65 4. KINETIC MODELLING OF THE LI-RHC SYSTEM - DESORPTION REACTIONS . 69 4.1. RESULTS . 69 4.1.1. THERMODYNAMIC DATA . 69 4.1.2. KINETIC DATA . 70 4.1.3. DETERMINATION OF THE REACTION MODEL - G(A) . 71 4.1.4. DETERMINATION OF THE TEMPERATURE DEPENDENCY - K(T) . 77 4.1.5. DETERMINATION OF THE PRESSURE DEPENDENCY - F(P) . 78 4.2. DISCUSSION . 82 4.2.1. POWDER CHARACTERISATION . 82 4.2.2. THERMODYNAMIC BEHAVIOUR UNDER DESORPTION CONDITIONS . 83 4.2.3. PRESSURE DEPENDENCY . 84 4.2.4. VALIDATION OF THE MODEL . 84 4.2.5. FINITE ELEMENT SIMULATIONS: APPLICATION OF THE DIFFERENTIAL FORM OF THE KINETIC EXPRESSION . 87 5. SCALED-UP PRODUCTION OF LI-RHC FOR THE ADIABATIC TANK . 91 5.1. RESULTS . 91 5.1.1. ESTIMATION OF THE KINETIC PARAMETERS OF LI-RHC WITH 3TICL, ' AICIS . 91 5.1.2. PREPARATION AND CHARACTERISATION OF LI-RHC PELLETS . 93 5.1.3. ESTIMATION OF THE HEAT CONDUCTIVITY FOR LI-RHC PELLETS AT HIGH TEMPERATURES . 95 5.1.4. MODELLING OF THE GAS PERMEABILITY IN LI-RHC PELLETS . 97 5.1.5. DIGITAL TWIN OF THE PELLET ' S LABORATORY SCALE EXPERIMENTS . 100 5.2. DISCUSSION . 110 5.2.1. CHANGE IN CATALYST: FROM TICIS TO 3TICL3AICL3 . 110 5.2.2. COMPARATIVE STUDY ON PELLET ' S H 2 -CAPACITY . 110 5.2.3. DIGITAL TWIN OF THE PELLET ' S ABSORPTION AND DESORPTION BEHAVIOUR . 114 6. ADIABATIC TANK DESIGN APPLYING FEM SIMULATIONS . 115 6.1. OVERVIEW AND DESIGN DEVELOPMENT . 115 6.2. RESULTS . 117 6.2.1. 2-D TANK GEOMETRY . 117 6.2.2. 3-D TANK GEOMETRY . 132 6.3. DISCUSSION . 144 6.3.1. INFLUENCE OF CAVITY PLACEMENT. 144 6.3.2. INFLUENCE OF TANK HEIGHT . 146 6.3.3. PARAMETRIC ANALYSIS: EFFECTIVE HEAT CONDUCTIVITY OF THE TCESM . 149 6.3.4. PERFORMANCE-LIMITING FACTOR FOR LI-RHC . 151 7. CONCLUSIONS . 153 8. OUTLOOK . 155 9. ACKNOWLEDGEMENTS . 157 10. REFERENCES . 159 11. LIST OF PUBLICATIONS . 171 12. OTHER WORKS . 173 APPENDIX A - THERMODYNAMIC ASSESSMENT UNDER ABSORPTION CONDITIONS . 175 APPENDIX B - REPORTING OF THE KINETIC CURVES . 177 APPENDIX C - DETERMINATION OF THE KINETIC MODEL (G(A)) . 179 APPENDIX D - DETERMINATION OF THE EMPIRICAL KINETIC CONSTANT (K(T, P)) . 181 APPENDIX E - DETERMINATION OF PRESSURE DEPENDENCY (F(P)) . 183 APPENDIX F - SUMMARY OF DESORPTION MODELLING RESULTS . 193 APPENDIX G - COEFFICIENT OF DETERMINATION (R 2 ) CALCULATION . 199 APPENDIX H - ERROR PROPAGATION AND ERROR ESTIMATION . 201 APPENDIX I - DESORPTION MODELLING: PHYSICAL PARAMETERS FOR SAMPLE HOLDER FEM MODEL . 203 APPENDIX J - PELLET ' S HEIGHT AND DENSITY CALCULATION . 207 APPENDIX K - DESORPTION KINETICS OF LI-RHC PELLETS . 209 APPENDIX L -DATA AND EQUATIONS FOR FEM SIMULATIONS . 211 APPENDIX M - ADIABATIC TANK PROTOTYPE . 221 APPENDIX N - ESTIMATION OF THE SPECIFIC HEAT CAPACITY FOR THE LI-RHC . 225 APPENDIX 0 - THE PROUT-TOMPKINS MODEL . 227 ANNEX A - TECHNICAL DRAWINGS .229
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spelling	Neves, André Verfasser (DE-588)1325612359 aut Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite vorgelegt von André Martins Neves Hamburg 2024 xxii, 233 Seiten Illustrationen, Diagramme 30 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Helmut-Schmidt-Universität/Universität der Bundeswehr Hamburg 2024 (DE-588)4113937-9 Hochschulschrift gnd-content B:DE-101 application/pdf https://d-nb.info/1331344875/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035474595&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Neves, André Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite
subject_GND	(DE-588)4113937-9
title	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite
title_auth	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite
title_exact_search	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite
title_full	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite vorgelegt von André Martins Neves
title_fullStr	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite vorgelegt von André Martins Neves
title_full_unstemmed	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite vorgelegt von André Martins Neves
title_short	Development of an adiabatic hydrogen storage system based on lithium reactive hydride composite
title_sort	development of an adiabatic hydrogen storage system based on lithium reactive hydride composite
topic_facet	Hochschulschrift
url	https://d-nb.info/1331344875/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035474595&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT nevesandre developmentofanadiabatichydrogenstoragesystembasedonlithiumreactivehydridecomposite

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