<p><b>A much-needed, up-to-date guide on conventional and alternative power generation</b> </p> <p>This book goes beyond the traditional methods of power generation. It introduces the many recent innovations on the production of electricity and the way they play a major role in combating global warming and improving the efficiency of generation. It contains a strong analytical approach to underpin the theory of power plants—for those using conventional fuels, as well as those using renewable fuels—and looks at the problems from a unique environmental engineering perspective. The book also includes numerous worked examples and case studies to demonstrate the working principles of these systems.</p> <p><i>Conventional and Alternative Power Generation: Thermodynamics, Mitigation and Sustainability</i> is divided into 8 chapters that comprehensively cover: thermodynamic systems; vapor power cycles, gas power cycles, combustion; control of particulates; carbon capture and storage; air pollution dispersal; and renewable energy and power plants.</p> <ul> <li>Features an abundance of worked examples and tutorials</li> <li>Examines the problems of generating power from an environmental engineering perspective</li> <li>Includes all of the latest information, technology, theories, and principles on power generation</li> </ul> <p><i>Conventional and Alternative Power Generation: Thermodynamics, Mitigation and Sustainability</i> is an ideal text for courses on mechanical, chemical, and electrical engineering.</p>
<p><b>NEIL PACKER</b> is a Chartered engineer and Senior lecturer in Mechanical Engineering at Staffordshire University, UK. He has been teaching thermo-fluid and environmental engineering for over 20 years and has acted as an energy consultant in the UK, mainland Europe, and North Africa. <p><b>TARIK AL-SHEMMERI, P<small>H</small>D,</b> is Professor of Renewable Energy Technology at Staffordshire University, UK. He has lectured and researched extensively in the area of thermo-fluids, renewable energy, and power generation.
<p><b>A MUCH-NEEDED, UP-TO-DATE GUIDE ON CONVENTIONAL AND ALTERNATIVE POWER GENERATION</b> <p>This book goes beyond the traditional methods of power generation. It introduces the many recent innovations on the production of electricity and the way they play a major role in combating global warming and improving the efficiency of generation. It contains a strong analytical approach to underpin the theory of power plantsfor those using conventional fuels, as well as those using renewable fuelsand looks at the problems from a unique environmental engineering perspective. The book also includes numerous worked examples and case studies to demonstrate the working principles of these systems. <p><i>Conventional and Alternative Power Generation: Thermodynamics, Mitigation and Sustainability</i> is divided into eight chapters that comprehensively cover: thermodynamic systems; vapor power cycles; gas power cycles; combustion; control of particulates; carbon capture and storage; air pollution dispersal; and renewable energy and power plants. <ul> <li>Features an abundance of worked examples and tutorials</li> <li>Examines the problems of generating power from an environmental engineering perspective</li> <li>Includes all of the latest information, technology, theories, and principles on power generation</li> </ul> <p><i>Conventional and Alternative Power Generation: Thermodynamics, Mitigation and Sustainability</i> is an ideal text for courses on mechanical, chemical, and electrical engineering.