Thermal Management of Electric Vehicle Battery Systems


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Description

Thermal Management of Electric Vehicle Battery Systems provides a thorough examination of various conventional and cutting edge electric vehicle (EV) battery thermal management systems (including phase change material) that are currently used in the industry as well as being proposed for future EV batteries. It covers how to select the right thermal management design, configuration and parameters for the users' battery chemistry, applications and operating conditions, and provides guidance on the setup, instrumentation and operation of their thermal management systems (TMS) in the most efficient and effective manner.

This book provides the reader with the necessary information to develop a capable battery TMS that can keep the cells operating within the ideal operating temperature ranges and uniformities, while minimizing the associated energy consumption, cost and environmental impact. The procedures used are explained step-by-step, and generic and widely used parameters are utilized as much as possible to enable the reader to incorporate the conducted analyses to the systems they are working on. Also included are comprehensive thermodynamic modelling and analyses of TMSs as well as databanks of component costs and environmental impacts, which can be useful for providing new ideas on improving vehicle designs.

Key features:

  • Discusses traditional and cutting edge technologies as well as research directions
  • Covers thermal management systems and their selection for different vehicles and applications
  • Includes case studies and practical examples from the industry
  • Covers thermodynamic analyses and assessment methods, including those based on energy and exergy, as well as exergoeconomic, exergoenvironmental and enviroeconomic techniques
  • Accompanied by a website hosting codes, models, and economic and environmental databases as well as various related information

Thermal Management of Electric Vehicle Battery Systems is a unique book on electric vehicle thermal management systems for researchers and practitioners in industry, and is also a suitable textbook for senior-level undergraduate and graduate courses.



Author: Ibrahim Dinçer
Publisher: Wiley
Published: 03/17/2017
Pages: 480
Binding Type: Hardcover
Weight: 1.85lbs
Size: 9.70h x 6.80w x 1.10d
ISBN13: 9781118900246
ISBN10: 1118900243
BISAC Categories:
- Technology & Engineering | Mechanical
- Transportation | Automotive | General

About the Author

Ibrahim Dincer is a full professor of Mechanical Engineering and director of Clean Energy Research Laboratory at UOIT. Renowned for his pioneering works in the area of sustainable energy technologies, including clean transportation options, he has authored/co-authored many books, book chapters, and refereed journal and conference papers. He has chaired national and international conferences, symposia, workshops and technical meetings and delivered many keynote and invited lectures. He is an active member of various international scientific organizations and societies, and serves as editor-in-chief, associate editor, regional editor, and editorial board member on various prestigious international journals. He is a recipient of several research, teaching and service awards, including the Premier's research excellence award in Ontario, Canada. He has recently been recognized by Thomson Reuters as one of The Most Influential Scientific Minds in Engineering.

Halil S. Hamut is a Chief Senior Researcher at The Scientific and Research Council of Turkey (TÃœBITAK) and the project manager for developing Turkey's first brand of national electric vehicles. He received his PhD from the Faculty of Engineering and Applied Science, University of Ontario Institute of Technology in Canada, in 2013. He has previously collaborated with General Motors Company in Oshawa, Canada and worked for Ford Motor Company in Michigan, U.S.A He has published many journals and conference papers and has been a reviewer for several journals. His research interests are primarily concerned with exergy, exergoeconomic and exergoenvironmental analyses of electric and hybrid electric vehicle thermal management systems.