© 2010 – Routledge
Reducing and managing humanity's demand for energy is a fundamental part of the effort to mitigate climate change. In this, the most comprehensive textbook ever written on the subject, L. D. Danny Harvey lays out the theory and practice of how things must change if we are to meet our energy needs sustainably.
The book begins with a succinct summary of the scientific basis for concern over global warming, then outlines energy basics and current patterns and trends in energy use. This is followed by a discussion of current and advanced technologies for the generation of electricity from fossil fuels. The book then considers in detail how energy is used, and how this use can be dramatically reduced, in the following end-use sectors:
The findings from these sector-by-sector assessments are then applied to generate scenarios of how global energy demand could evolve over the coming decades with full implementation of the identified and economically-feasible energy-saving potential. The book ends with a brief discussion of policies that can be used to reduce energy demand, but also addresses the limits of technologically-based improvements in efficiency in moderating demand and of the need to re-think some of our underlying assumptions concern ends with a brief discusing what we really need. Along with its companion volume on C-free energy supply, and accompanied by extensive supplementary online material, this is an essential resource for students and practitioners in engineering, architecture, environment and energy related fields.
Online material includes: Excel-based computational exercises, teaching slides for each chapter and links to free software tools.
'An excellent textbook for a wide range of energy-related university-level courses.' John Straube, University of Waterloo, Canada 'From understanding the Carnot Cycle in power plants and electrochemical processes in fuel cells to examining waste heat recovery within industry, this is the 'go to' book for those wanting to explore the many surprising opportunities for improving energy efficiency.' John A. 'Skip' Laitner, Director of Economic and Social Analysis, American Council for an Energy-Efficient Economy 'Scientific understanding and technological options can provide a successful approach to energy for sustainable development. Improved energy efficiency offers multiple sustainability benefits, including climate change mitigation. What are needed are political will, financial commitment and social readiness. This book is essential in today's debate.' Thomas B. Johansson, Professor, Lund University, Sweden 'Energy Efficiency and the Demand for Energy Services is remarkable for the scope of its coverage - the whole problem, not just a slice - and its depth, clarity and approachability. It will serve as an excellent textbook for a wide range of energy-related university-level courses.' John Straube, Associate Professor, Department of Civil Engineering & School of Architecture, University of Waterloo, Canada 'As energy advances to be the 'front burner' issue that it needs to be and remain, texts like these are vitally needed for the new generation of energy researchers and leaders.' Daniel M. Kammen, Class of 1935 Distinguished Professor of Energy, University of California 'provides an in depth look at energy use and demand, and covers both domestic and industrial situations, transport and agriculture.' Enagri Praise for Energy and the New Reality Two-Volume Set 'The approach is detailed and technical and should be useful as a reference work… Overall, it's an outstanding package… Recommended.' Renew 'probably the best books so far on sustainable energy for serious student use' Renew
Preface Acknowledgements List of acronyms and abbreviations Chapter Highlights 1. Prospective Climatic Change, Impacts and Constraints 2. Energy basics, Usage Patterns and Trends and Related Greenhouse Gas and Pollutant Emissions 3. Generation of Electricity from Fossil Fuels 4. Energy Use in Buildings 5. Transportation Energy Use 6. Industrial Energy Use 7. Agricultural and Food-System Energy Use 8. Municipal Services 9. Community-Integrated Energy Systems 10. Pathways to the future 11. Policies to Reduce the Demand for Energy Appendix A: Units and Conversion Factors Appendix B: Heating Values of Fuels and Energy Equivalents Appendix C: Definitions of Country Groups Appendix D: Financial Parameters Appendix E: Alternative Measures of Transportation Fuel Efficiency Appendix F: Web Sites with More Information References Index