Based on state-of-the-art science and technologies, this book disseminates the latest advancements concerning the relationship between renewable energy and climate change and presents the best practices to further utilize renewable energy for mitigation. It examines issues of climate change from different renewable energy fronts by the respective experts from around the world. While high-level and in-depth technological advancements are judiciously presented, it also discusses different types of renewable energy and the associated technologies in consideration of the various perspectives of economy, availability, and societal implications in different regions.
Features:
Discusses the concept of leapfrogging renewable energy technologies in developing countries for the purpose of minimizing human-induced climate change impacts as rapidly as possible
Includes various options from high technology to sustainable agriculture
Presents and compares the latest novel and emerging potential technologies
Outlines how to advance renewable energy by improving energy storage and optimizing financial incentives and management
Renewable Energy for Mitigating Climate Change enlightens readers from a renewable energy perspective on how to best tackle the challenges of climate change. This is a must-read for senior undergraduate and graduate students in environmental studies, decision- and policymakers, educators, and every environmental steward. The interests of all stakeholders, especially future generations, form the thread connecting all the chapters together into a powerful tool to mitigate global climate change.
About the Author:
Dr. Jacqueline A. Stagner is the Undergraduate Programs Coordinator of Engineering at the University of Windsor. She has a PhD in Materials Science and Engineering, a Master of Business Administration, and a bachelor's degree in Mechanical Engineering. As an adjunct graduate faculty member in the Department of Mechanical, Automotive and Materials Engineering, she co-advises students in the sustainability and renewable energy areas, in the Turbulence & Energy Laboratory. To date, she has edited four volumes.
Dr. David S-K. Ting is the founder of the Turbulence & Energy Laboratory, University of Windsor. As a professor in the Department of Mechanical, Automotive and Materials Engineering, he supervises students on a wide range of research projects in the thermofluids, flow turbulence, energy conversion and conservation, and renewable energy areas. Professor Ting has supervised over eighty-five graduate students and co-authored more than one hundred and fifty journal papers.