Book contents
- Frontmatter
- Contents
- List of main contributors
- Preface
- Acknowledgements
- List of abbreviations
- 1 Scope of the book
- 2 Why hydrogen?
- 3 Non-renewable energy resources: fossil fuels – supply and future availability
- 4 Non-renewable energy resources: nuclear fuels
- 5 Assessment of the potentials for renewable energy sources
- 6 Carbon capture and storage
- 7 Energy-chain analysis of hydrogen and its competing alternative fuels for transport
- 8 Hydrogen today
- 9 Fundamental properties of hydrogen
- 10 Hydrogen production
- 11 Hydrogen storage
- 12 Hydrogen distribution
- 13 Key role of fuel cells
- 14 Hydrogen-infrastructure build-up in Europe
- 15 Building a hydrogen infrastructure in the USA
- 16 Hydrogen and the electricity sector
- 17 Hydrogen corridors
- 18 Macroeconomic impacts of hydrogen
- 19 Sustainable transport visions: the role of hydrogen and fuel-cell vehicle technologies
- 20 Energy-efficient solutions needed – paving the way for hydrogen
- 21 The future of hydrogen – opportunities and challenges
- Further reading
- Index
1 - Scope of the book
Published online by Cambridge University Press: 22 January 2010
- Frontmatter
- Contents
- List of main contributors
- Preface
- Acknowledgements
- List of abbreviations
- 1 Scope of the book
- 2 Why hydrogen?
- 3 Non-renewable energy resources: fossil fuels – supply and future availability
- 4 Non-renewable energy resources: nuclear fuels
- 5 Assessment of the potentials for renewable energy sources
- 6 Carbon capture and storage
- 7 Energy-chain analysis of hydrogen and its competing alternative fuels for transport
- 8 Hydrogen today
- 9 Fundamental properties of hydrogen
- 10 Hydrogen production
- 11 Hydrogen storage
- 12 Hydrogen distribution
- 13 Key role of fuel cells
- 14 Hydrogen-infrastructure build-up in Europe
- 15 Building a hydrogen infrastructure in the USA
- 16 Hydrogen and the electricity sector
- 17 Hydrogen corridors
- 18 Macroeconomic impacts of hydrogen
- 19 Sustainable transport visions: the role of hydrogen and fuel-cell vehicle technologies
- 20 Energy-efficient solutions needed – paving the way for hydrogen
- 21 The future of hydrogen – opportunities and challenges
- Further reading
- Index
Summary
Already in 1874, Jules Verne, in his novel The Mysterious Island, lets the engineer Cyrus Harding reply when asked what mankind will burn instead of coal, once it has been depleted:
water decomposed into its primitive elements, … and decomposed doubtless, by electricity … Yes, my friends, I believe that water will one day be employed as fuel, that hydrogen and oxygen which constitute it, used singly or together, will furnish an inexhaustible source of heat and light, of an intensity of which coal is not capable.
Today's energy and transport system, which is based mainly on fossil fuels, can in no way be evaluated as sustainable. In the light of the projected increase of global energy demand, concerns over energy supply security, climate change, local air pollution and increasing prices of energy services are having a growing impact on policy making throughout the world.
At present, oil, with a share of more than one third in the global primary energy mix, is still the largest primary fuel and covers more than 95% of the energy demand in the transport sector. With continued growth of the world's population and industrialisation of developing nations, such as China and India, accompanied by an increasing ‘automobilisation’, a surge in global demand for oil is expected for the future. A growing anxiety about the economic and geopolitical implications of possible shortcomings in the supply of oil as a pillar of our globalised world based on transportation is increasingly triggering the search for alternative fuels.
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- The Hydrogen EconomyOpportunities and Challenges, pp. 1 - 7Publisher: Cambridge University PressPrint publication year: 2009
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