Compendium of Hydrogen Energy : Hydrogen Storage, Distribution and Infrastructure

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· 제목 : Compendium of Hydrogen Energy : Hydrogen Storage, Distribution and Infrastructure (Hardcover) (Hydrogen Storage, Transportation and Infrastructure)
· 분류 : 외국도서 > 과학/수학/생태 > 과학 > 에너지
· ISBN : 9781782423621
· 쪽수 : 438쪽
· 출판일 : 2015-08-21

List of contributors
Part One: Hydrogen storage in pure form
- 1: Introduction to hydrogen storage
  - Abstract
  - 1.1 Introduction
  - 1.2 Physical storage
  - 1.3 Material-based hydrogen storage
- 2: Hydrogen liquefaction and liquid hydrogen storage
  - Abstract
  - Acknowledgments
  - 2.1 Introduction: Why liquefying hydrogen?
  - 2.2 Basics of cryogenic liquefaction
  - 2.3 Hydrogen thermodynamic properties at ambient and low temperatures
  - 2.4 Large-scale hydrogen liquefaction and storage
  - 2.5 Advantages and disadvantages
  - 2.6 Current uses of liquid hydrogen
  - 2.7 Sources of further information and advice
- 3: Slush hydrogen production, storage, and transportation
  - Abstract
  - 3.1 Introduction: What is slush hydrogen?
  - 3.2 Hydrogen energy system using slush hydrogen
  - 3.3 Thermophysical properties of slush hydrogen
  - 3.4 Process of producing and storing slush hydrogen
  - 3.5 Density and mass flow meters for slush hydrogen
  - 3.6 Advantages and disadvantages of transporting slush hydrogen via pipeline
  - 3.7 Uses of stored slush and liquid hydrogen
  - 3.8 Conclusions
  - 3.9 Future trends
  - 3.10 Sources of future information and advice
  - Appendix A Production
  - Appendix B Flow and heat transfer
  - Appendix C Measurement instrumentation
- 4: Underground and pipeline hydrogen storage
  - Abstract
  - Acknowledgments
  - 4.1 Underground hydrogen storage as an element of energy cycle
  - 4.2 Scientific problems related to UHS
  - 4.3 Biochemical transformations of underground hydrogen
  - 4.4 Hydrodynamic losses of H₂ in UHS
  - 4.5 Other problems
  - 4.6 Pipeline storage of hydrogen
Part Two: Physical and chemical storage of hydrogen
- 5: Cryo-compressed hydrogen storage
  - Abstract
  - Acknowledgments
  - 5.1 Introduction
  - 5.2 Thermodynamics and kinetics of cryo-compressed hydrogen storage
  - 5.3 Performance of onboard storage system
  - 5.4 Well-to-tank efficiency
  - 5.5 Assessment of cryo-compressed hydrogen storage and outlook
- 6: Adsorption of hydrogen on carbon nanostructure
  - Abstract
  - 6.1 Introduction
  - 6.2 General considerations for physisorption of hydrogen on carbon nanostructures
  - 6.3 Carbon nanotubes and fullerenes
  - 6.4 Activated carbons
  - 6.5 Layered graphene nanostructures
  - 6.6 Zeolite-templated carbons
  - 6.7 Conclusion
- 7: Metal?organic frameworks for hydrogen storage
  - Abstract
  - 7.1 Introduction
  - 7.2 Synthetic considerations
  - 7.3 Cryo-temperature hydrogen storage at low and high pressures
  - 7.4 Room temperature hydrogen storage at high pressure
  - 7.5 Nanoconfinement of chemical hydrides in MOFs
  - 7.6 Conclusions and future trends
- 8: Other methods for the physical storage of hydrogen
  - Abstract
  - 8.1 Introduction
  - 8.2 Storage of compressed hydrogen in glass microcontainers
  - 8.3 Hydrogen physisorption in porous materials
  - 8.4 Hydrogen hydrate clathrates
  - 8.5 Conclusions and outlook
- 9: Use of carbohydrates for hydrogen storage
  - Abstract
  - 9.1 Introduction
  - 9.2 Converting carbohydrates to hydrogen by SyPaB
  - 9.3 Challenges of carbohydrates as hydrogen storage and respective solutions
  - 9.4 Future carbohydrate-to-hydrogen systems
  - 9.5 Conclusions
  - 9.6 Sources of future information and advice
- 10: Conceptual density functional theory (DFT) approach to all-metal aromaticity and hydrogen storage
  - Abstract
  - Acknowledgments
  - 10.1 Introduction
  - 10.2 Background of conceptual DFT
  - 10.3 All-metal aromaticity
  - 10.4 Role of aromaticity in hydrogen storage
  - 10.5 Case studies of possible hydrogen-storage materials with the aid of CDFT
  - 10.6 Future trends
Part Three: Hydrogen distribution and infrastructure
- 11: Introduction to hydrogen transportation
  - Abstract
  - 11.1 Introduction
  - 11.2 Overview of methods for hydrogen transportation
  - 11.3 Difficulties involved with the transportation of hydrogen
  - 11.4 Future trends
  - 11.5 Sources of further information and advice
- 12: Hydrogen transportation by pipelines
  - Abstract
  - 12.1 Introduction
  - 12.2 Current hydrogen pipelines
  - 12.3 Principles of transportation of hydrogen
  - 12.4 Gas transportation principles
  - 12.5 Pipeline transportation of hydrogen gas
  - 12.6 Conclusion
  - 12.7 Future trends
  - 12.8 Further reading
- 13: Progress in hydrogen energy infrastructure development?addressing technical and institutional barriers
  - Abstract
  - Acknowledgments
  - 13.1 Introduction
  - 13.2 Recent progress in hydrogen infrastructure in the United States
  - 13.3 Recent progress in hydrogen infrastructure and fuel cell vehicle and fuel cell bus demonstrations in China
  - 13.4 Conclusions
- 14: Designing optimal infrastructures for delivering hydrogen to consumers
  - Abstract
  - Acknowledgments
  - 14.1 Introduction
  - 14.2 Building blocks of hydrogen infrastructure
  - 14.3 Review of hydrogen infrastructure models
  - 14.4 Case study: Decarbonizing UK transport demand with hydrogen vehicles
  - 14.5 Results
  - 14.6 Conclusions
  - Appendix
- 15: Investment in the infrastructure for hydrogen passenger cars?New hype or reality?
  - Abstract
  - 15.1 Introduction
  - 15.2 Uncertainties surrounding the investment in hydrogen infrastructure
  - 15.3 Implementation of the early infrastructure: case studies
  - 15.4 Future trends
  - 15.5 Conclusions
  - 15.6 Sources of further information and advice
Index