Read more
As a society we use energy for climate control and lighting in buildings, moving people and goods form one place to another and making things. Our standard of living depends on transforming energy locked up in fossil fuels, atomic nuclei or provided free of charge by the sun and wind into a form that we can use. This book uses simple classical physics (mechanics, thermodynamics and electromagnetism) to quantitatively review sources of energy and how we use them. It addresses key questions such as: Can renewables such as solar and wind take over from fossil fuels? How much will their use reduce CO2 emissions?
To see what is important, numbers are used to estimate how big or small things are, but the maths is kept at the level of simple algebra and trigonometry. The aim is to give an overview of the big picture, to only worry about what really makes a difference. There's also growing concern that CO2 emissions from burning fossil fuels will change climate irreversibly in harmful ways.
List of contents
- Introduction
- 1: Energy and Society
- PART I: Controlling the Indoor Environment
- 2: Buildings
- 3: Electrical Power Generation: Fossil Fuels
- 4: Nuclear Power Generation
- 5: Electrical Power Distribution
- 6: Electrical Power Generation: Renewables - Solar and Wind
- 7: Electrical Power Generation: Hydroelectric, Tides, Pumped Storage
- PART II: Moving People and Things Around
- 8: Transportation: Fuel Energies
- 9: Ground Transportation: Road and Rail
- 10: Air Transportation
- 11: Ground Transportation: Ships
- PART III: Making Stuff
- 12: Materials That Come From the Earth
- 13: Agriculture, Things That Are Grown
- 14: Embodied Energy and Energy Return on Investment
- 15: Summary: What Shoud be Done?
About the author
Peter Rez completed his bachelors degree in Cambridge, and his PhD on Theory of Electron Scattering in Electron Microscopy, in Oxford. He has worked in industry (Kevex, VG Microscopes) on computer control and data acquisition in electron microscopy. He's been a professor at Arizona State since 1985. His interests have broadened to include general condensed matter theory as applied to batteries and strength of materials, radiation physics as applied to medical physics and radiation detectors, biomineralization and biophysics. This book came about from the author's interest in energy policy, another area where science and policy making collide.
Summary
As a society we use energy for climate control and lighting in buildings, moving people and goods from one place to another and making things. This book uses simple classical physics (mechanics, thermodynamics and electromagnetism) to quantitatively review sources of energy and how we use them.
Additional text
Six years ago when asked to devise a course on present and future energy systems for engineers, I would very much have liked to have this book to hand. Peter Rez has a primarily US focus but with examples from around the world. He draws the conclusions that put first generation renewable energy technologies firmly in their place -- suitable for low density communities that are remote and off grid, and not an answer to the world's generation of carbon dioxide. The book is very clearly written, suitable for any undergraduate, and it should be required reading for any energy policy analyst.
Report
Despite the considerable breadth of the book, if we zoom in on specific topics, there is quite a bit of detail... Opening up to nearly any page, there is a pairing of the simple physics and its application, often with very specific examples. Michael A. DuVernois, American Journal of Physics
