Energy Science: Principles, Technologies, and Impacts

Features

• Cover Type: Paperback with 344 pages
• Published by: Oxford University Press, USA March 3, 2007
• Written in: English
• ISBN 10 Number: 0199281122
• ISBN 13 Number: 978-0199281121
• Book Dimensions: 9.6 x 7.4 x 0.6 inches
• Weighs: 1.6 pounds

Product Description
Do renewable energy sources really provide a realistic alternative to fossil fuels? How does wind power compare to nuclear power, in terms of the energy it can generate? How do we get energy from the tides, and is it really a useful source of power?
Energy Science: Principles, Technologies, and Impacts integrates the science behind the key energy sources that are at our disposal today with the socioeconomic issues surrounding their use to give a balanced, objective overview of the range of energy sources available to us today. Covering both traditional and renewable energy sources, the book encourages the reader to evaluate different energy sources on the basis of sound quantitative understanding. It also explores the fundamental processes of energy generation, storage, and transmission, building a complete picture of energy supply and use--from wind turbines, nuclear reactors, and hydroelectric dams--to our homes.
Different energy sources have different social and economic impacts; the book uses examples and case studies throughout to help the reader critically assess the information to hand surrreach a well-rounded, informed view of the relative merits and drawbacks of the utilization of various energy sources.
Problems with current and future energy use and supply extend globally; Energy Science: Principles, Technologies, and Impacts introduces the potential solutions that science can offer, within a framework that encourages the critical assessment of the pros and cons of each.
Online resource centre:
The Online Resource Centre features:
For lecturers:
Figures from the book available to download, to facilitate lecture preparation
Solutions to end of chapter questions
For students:
Library of web links, giving students quick access to an extensive range of additional resources
Hyperlinks to primary literature articles cited in the text, to encourage students to explore topics in more detail

About The Author

John Andrews is currently a Visiting Fellow at Bristol University where he lectures in physics and applied mathematics; until recently he also lectured at Nottingham and Oxford Universities. His main research interest is in mathematical modelling of industrial process. Before returning to the academic world, he spent thirty years in the electricity supply industry, where he was involved in research activities related to conventional, nuclear and alternative energy technologies. He has lectured on Energy Studies at Bristol and Oxford Universities.
Nick Jelley is a Professor at the University of Oxford and Fellow of Lincoln College, where he has taught physics and carried out research in nuclear and particle physics for the last 25 years. His current research is on solar neutrinos with the Sudbury Neutrino Observatory (SNO) in Ontario, Canada, for which he is UK co-spokesperson. He has written a textbook on Nuclear Physics and is presently lecturing on Energy Studies.


Reader Reviews
In this time of seemingly ever increasing oil prices, the authors survey alternative technologies. The narrative is directed towards an engineering or science student, rather than the general public. So the basic physics of each method is explained. The ideas are quite diverse, and the authors have covered all of the major serious proposals for energy generation. Wave power, hydropower. Fission. Photovoltaic cells. Wind turbines. Biomass. Fusion. Of all these, fusion is clearly the furthest out. The assessments of the feasibilities of each method are dispassionate. Useful for those contemplating going into one of these fields.