Hydrogen Storage -

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Editeur : Iste Ltd

Langue : Anglais

Parution : 01/08/2025

Format : Moyen, de 350g à 1kg

Nombre de pages : 416.0

ISBN : 9781789452235

Résumé :

Hydrogen storage plays a central role in the hydrogen energy value chain. Efficient, economical and safe methods are essential to increase the gas' volume density and enable the sector's deployment.

Hydrogen Storage analyzes the various ways of storing hydrogen, whether in a gaseous state in pressurized reservoirs or geological structures, in a liquid state through the formation of ammonia or hydrogen-carrying organic liquids, or in a solid state in hydrogen-containing inorganic compounds such as metal hydrides and regenerable hydrides, or by adsorption into porous materials.

For each method, concepts are presented according to the processes used or the storage materials involved. Their advantages and disadvantages, as well as the main obstacles and challenges to be overcome, are analyzed.

This book provides an overview of the various storage solutions currently available, helping operators to choose the most appropriate method for a given application.

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Biographie:

Patricia de Rango is CNRS Researcher at the Institut N?el, France, and co-head of the storage axis of the CNRS hydrogen research federation, FRH2. Her research includes materials for energy, particularly the study of metal hydrides for hydrogen storage. Since October 2024, she has been Coordinator of the PEPR-H2 SOLHYD project.

Fermin Cuevas is CNRS Researcher at ICMPE, France, and co-head of the storage axis of the CNRS hydrogen research federation, FRH2. His research includes intermetallic materials, composites and complex hydrides for solid hydrogen storage. Since November 2024, he has been Director of the CNRS Office in China.

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Sommaire:

Preface xi
Patricia DE RANGO and Fermin CUEVAS

Chapter 1 Hyperbaric Storage 1
David CHAPELLE, Damien HALM and St?phane VILLALONGA

1.1 Compressed hydrogen 1

1.1.1 Overview of H 2 2

1.1.2 Compression 7

1.1.3 Mechanical tank geometry 9

1.1.4 Regulations and standards 12

1.2 Design and modeling 13

1.2.1 Tank testing 17

1.2.2 Tank geometry modeling 24

1.2.3 Behavior of the tank 28

1.2.4 Tank optimization 35

1.2.5 Outlook 38

1.3 Manufacturing processes 38

1.3.1 Boss manufacturing 39

1.3.2 Polymer liner manufacturing 40

1.3.3 Composite manufacturing 43

1.3.4 Developments and prospects (materials, thermoplastics, etc.) 47

1.4 Acknowledgments 52

1.5 References 52

Chapter 2 Geological Storage 57
Laurent TRUCHE and Fr?d?ric-Victor DONZ?

2.1 Introduction 57

2.2 Underground gas storage 61

2.2.1 General concepts 61

2.2.2 Salt cavern storage 62

2.2.3 Aquifer storage 63

2.2.4 Storage in depleted oil or gas reservoirs 65

2.2.5 Storage in former coal mines 66

2.2.6 Storage in lined hard rock caverns or refrigerated cavities 66

2.2.7 Feedback from the past 67

2.3 Hydrodynamic properties of hydrogen in a storage context 69

2.3.1 Fluid-H 2 interactions 69

2.3.2 Solid-H 2 interactions 74

2.4 Hydrogen reactivity in underground environments 81

2.4.1 Abiotic reactivity and surface catalysis 81

2.4.2 Microbial reactivity 86

2.5 Scientific perspectives and challenges 89

2.6 References 90

Chapter 3 Liquid Storage: LOHC 99
Xiaolong JI, Val?rie MEILLE and Catherine PINEL

3.1 Introduction 99

3.2 Aromatic hydrocarbons 100

3.2.1 Introduction 100

3.2.2 Aromatic hydrocarbon LOHC couples 104

3.3 N-containing molecules 119

3.3.1 Introduction 119

3.3.2 N-heterocycles 119

3.3.3 Nitriles/amines 128

3.4 O-containing molecules 129

3.4.1 Introduction 129

3.4.2 Monoalcohols 130

3.4.3 Polyols 137

3.5 Amines/amides 139

3.6 Further comparison and conclusion 139

3.7 List of abbreviations 139

3.8 References 141

Chapter 4 Liquid Storage: Ammonia 161
Nicolas BION, Fabien CAN, Charlotte CROIS?, Xavier COURTOISand Mohamed El Amine KRIB?CHE

4.1 Introduction 161

4.2 Ammonia as an energy carrier 162

4.3 Compatibility with fuel cells 164

4.4 Ammonia synthesis 166

4.4.1 The Haber-Bosch process 166

4.4.2 Ammonia synthesis catalysts 170

4.4.3 Mechanisms and limiting steps in ammonia synthesis 178

4.5 Alternative ammonia synthesis processes 181

4.6 Ammonia decomposition 184

4.6.1 High-temperature ammonia cracking 184

4.6.2 Electro-oxidation of ammonia 187

4.7 Overview and outlook 191

4.8 References 193

Chapter 5 Reversible Hydrogen Storage: Intermetallic Compounds and Mg-based Materials 203
Ghofrane FEDLOUK, Hugo BENET, Val?rie PAUL-BONCOUR, Judith MONNIER and Junxian ZHANG

5.1 Introduction 203

5.2 Intermetallic compounds 205

5.2.1 BCC-type alloys 205

5.2.2 AB compounds 207

5.2.3 AB 2 compounds 208

5.2.4 AB 5 compounds 210

5.2.5 Ab X Compounds (2 < X < 5) 211

5.3 Mg-based materials 220

5.3.1 Magnesium hydride MgH 2 220

5.3.2 Binary Mg-based compounds 226

5.3.3 Ternary Mg-based compounds 233

5.4 Conclusion 238

5.5 References 241

Chapter 6 High-Entropy Alloys for Hydrogen Storage 255
Nayely PINEDA RO...