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<p/><br></br><p><b> About the Book </b></p></br></br>"The text presents energy flow from primary sources to end-users with an interdisciplinary system approach. Technical topics include the current availability and future of primary sources, energy supply chain, conversion between different forms of energy, security of energy supply, and efficient end-use of energy sources. The sequence of the topics is organized considering the share of various sources and conversion techniques in the current global energy-supply mix. Each chapter contains a background information, an outline of the current technologies, and potential future developments. In addition to the technical content, global, economic, societal, ethical, and environmental issues associated with currently used energy technologies are discussed throughout the text. The aim of this book is to provide the readers with adequate technical foundation to evaluate the performance of energy systems and understand their interactions with socioeconomic indicators"--<p/><br></br><p><b> Book Synopsis </b></p></br></br><p><b>A handbook of sustainable energy, covering entire energy aspects from present status to future alternatives under one umbrella</b> </p> <p>This book takes an interdisciplinary system approach to evaluating energy systems so that readers can gain the necessary technical foundation to perform their own performance evaluations and understand their interactions with socioeconomic indicators. Topics include the current and future availability of primary sources, energy supply chain, conversion between different forms of energy, security of energy supply, and efficient end-use of energy sources. Each chapter provides readers with comprehensive background information, an outline of the current technologies, and potential future developments. The book also examines the global, economic, societal, ethical, and environmental issues associated with currently used energy technologies. </p> <p><i>Energy for Sustainable Society: From Resources to Users </i>starts with ageneral overview of energy systems, and describes the major elements of energy transformation and supply chain. It then discusses interdisciplinary career opportunities in the Âenergy engineering field. The fundamental concepts of energy conversion, transmission, and load flow in electrical systems are covered, as are conventional and unconventional fossil fuels, and the basics of nuclear power generation and reactor types. Other chapters look at: the fundamental concepts of thermodynamics and basic operation of steam turbines, gas turbines, and combined cycle heat engines used in fossil fuel and nuclear power plants; current technologies in hydroelectric power generation; renewable and alternative energy sources; energy security issues; and more.</p> <p> </p> <ul> <li>Contains up-to-date information on renewable energy technologies such as grid-tie, net-zero energy, battery backup, and utility-independent micro grids</li> <li>Presents the status of the share of renewable sources in the current and future energy supply mix</li> <li>Provides solved examples, case studies, self-assessment quizzes, and problems to enhance the understanding of readers</li> <li>Includes an exclusive chapter on energy security issues</li> </ul> <p><i>Energy for Sustainable Society</i> gives readers a solid foundation to study energy related subjects and is an ideal book for a first course on energy systems for upper division undergraduate and first year graduate students.</p> <p> </p><p/><br></br><p><b> From the Back Cover </b></p></br></br><p><b>A handbook of sustainable energy, covering energy aspects from present status to future alternatives under one umbrella</b> <p>This book takes an interdisciplinary system approach to evaluating energy systems so that readers can gain the necessary technical foundation to perform their own performance evaluations and understand their interactions with socioeconomic indicators. Topics include the current and future availability of primary sources, energy supply chain, conversion between different forms of energy, security of energy supply, and efficient end-use of energy sources. Each chapter provides readers with comprehensive background information, an outline of the current technologies, and potential future developments. The book also examines the global, economic, societal, ethical, and environmental issues associated with currently used energy technologies. <p><i>Energy for Sustainable Society: From Resources to Users</i> starts with a general overview of energy systems, and describes the major elements of energy transformation and supply chain. It then discusses interdisciplinary career opportunities in the "energy engineering" field. The fundamental concepts of energy conversion, transmission, and load flow in electrical systems are covered, as are conventional and unconventional fossil fuels, and the basics of nuclear power generation and reactor types. Other chapters look at: the fundamental concepts of thermodynamics and basic operation of steam turbines, gas turbines, and combined cycle heat engines used in fossil fuel and nuclear power plants; current technologies in hydroelectric power generation; renewable and alternative energy sources; energy security issues; and more. <ul> <li>Contains up-to-date information on renewable energy technologies such as grid-tie, net-zero energy, battery backup, and utility-independent micro grids</li> <li>Presents the status of the share of renewable sources in the current and future energy supply mix</li> <li>Provides solved examples, case studies, self-assessment quizzes, and problems to enhance the understanding of readers</li> <li>Includes an exclusive chapter on energy security issues</li> </ul> <p><i>Energy for Sustainable Society: From Resources to Users</i> gives readers a solid foundation to study energy related subjects and is an ideal book for a first course on energy systems for upper division undergraduate and first year graduate students.<p/><br></br><p><b> About the Author </b></p></br></br><p><b>OGUZ A. SOYSAL, PHD, </b> is a Professor in the Department of Physics and Engineering at Frostburg State University, Maryland, USA. Dr. Soysal taught at several universities in Turkey, participated in research projects at the Ohio State University, Columbus OH and University of Toronto in Canada as a visiting scholar, and worked as a visiting professor at Bucknell University in Lewisburg, PA. His area of teaching includes energy systems, power electronics, control systems, and electromechanical energy conversion. He co-authored a textbook on <i>Fault Conditions in Electric Energy Systems</i> and published more than 50 papers in major journals and international conference proceedings. <p><b>HILKAT S. SOYSAL, LL.B, M.S.c, </b> practiced law for over 15 years before she started teaching engineering-related law courses at the college of engineering at Istanbul University in Turkey. She also taught engineering courses in the Department of Physics and Engineering at Frostburg State University, Frostburg, Maryland. Since 2000, she directed several renewable energy projects including WISE Education Program, Hydrogen Collection and Storage for Power Systems, and Sustainable Energy Research Facility (SERF).

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