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Full Description
Questions of energy policy are among the most central and consequential of any confronting society today. While the role of nuclear energy is key, there is little understanding and much misinformation regarding its nature and its potential. Impeding the emergence of informed discourse on this topic is the lack of clear, objective information. Nuclear Energy: Boom, Bust and Emerging Renaissance helps answer the question of "What role can nuclear energy play in meeting the global warming challenge?"
Currently, the public has little access to developments that have been made in nuclear energy technology since the accidents of Chernobyl and Fukushima. These new designs promise to come to fruition around 2030, as the 28th United Nations Conference on Climate Change (COP28) witnessed a call for a tripling of the use of nuclear power by 2050. Edward A. Friedman places the troubling issues of nuclear power into both historical and forward-looking contexts, first by exploring the consequences since the first reactor was connected to a public electrical grid, and then by envisioning radically new designs that promise a safe path toward achieving net-zero carbon emissions. With non-technical explanations, this book provides insight of how nuclear reactor technology holds the promise of making significant contributions to the struggle against global warming, and why dozens of nations are engaged in innovation and expansion of nuclear technology.
Timely and insightful, Nuclear Energy will appeal to the lay reader while also serving as a college-level text for both non-science students studying energy policy or sustainability and students of science and technology.
Contents
1: The Energy Stored in Atoms
2: US Developments: 1940â1945
3: US Developments 1945â1960
4: US Developments 1960â2000
5: Nuclear Resistance
6: Reactor Development in Britain
7: Reactor Development in France
8: Reactor Development in Russia
9: Reactor Development in China
10: Reactor Development in Other Countries
11: The Three Mile Island Accident
12: The Chernobyl Accident
13: The Fukushima Accident
14: Solar, Wind, and Battery Power
15: Generation-III Reactors
16: Fuel, Waste, and Radioactivity
17: Generation-IV Reactors
18: Molten-salt Reactors
19: Liquid-sodium Reactors (LSRs)
20: Liquid Lead-cooled Fast Reactors
21: High-temperature Gas-cooled Reactors
22: Floating Nuclear Reactors
23: Small Modular Reactors (SMRs)
24: Nuclear Reactor Export Market
25: Meeting the Global Warming Challenge
