Modern Energy Storage: The Key to Energy System Transformation

Huaiguang Jiang · Fei-Yue Wang · Eduard Muljadi

Aug 2025 · Academic Press

Ebook

900

Pages

Eligible

This book will become available on August 1, 2025. You will not be charged until it is released.

About this ebook

Modern Energy Storage: The Key to Energy System Transformation is a unique reference designed to give students and researchers the most advanced information on technologies in energy storage systems. Energy storage is a complex system, often containing several energy storage techniques to complement each other. This reference covers those techniques by looking at li-ion battery-based energy storage systems and all indispensable technologies in different scenarios or real applications including Compressed Air Storage, Power to gas systems, Pumped Thermal, Liquid Air Storage, Thermochemical storage, and more. Compiled by global experts and considering latest advances related to full recyclable process, second use, pollution reduction, and low-carbon industry & economy, which will boost the real applications of the energy storage systems. By addressing the current challenges of energy storage technologies and potential solutions, this comprehensive text uses algorithms, methods, and programs as a technical-encyclopedia for energy-storage-related areas such as Electric vehicles, Intelligent Transportation, Environment, and smart cities. Designed to inform, advise, and create discussion about the energy transition, climate, low carbon power and economy, the contributors provide abundant and valuable materials and references for the students, researchers, engineers, professors in in energy, engineering and environmental areas. - Designed to be a suitable text for Energy, Energy Storage, and Power System-related courses for post-graduate students - Includes algorithms, methods, and programs designed to be used as technical-encyclopedia for energy-storage-related areas - Features real applications, including energy storage in electrical power grids and transportation systems and Environment Impaction with Battery Recycling and Ladder Utilization

About the author

Dr Jiang, research engineer and a research leader (PI and Co-PI) in National Renewable Energy Laboratory (NREL).Leading the direction of artificial intelligence and advanced control areas, and helping NREL to receive tens of millions of funding from US department of energy (DOE). He has more than 40 papers, 2 books, 2 software, and 3 US patents. He is an IEEE senior member with more than 10 years research experience in energy and related areas and serving many session/committee chairs in TOP IEEE PES conferences such as ECCE, ISGT, and DTPI.

Fei-Yue Wang received his Ph.D. degree in computer and systems engineering from the Rensselaer Polytechnic Institute, Troy, NY, USA, in 1990. He joined The University of Arizona in 1990 and became a Professor and the Director of the Robotics and Automation Laboratory and the Program in Advanced Research for Complex Systems. In 1999, he founded the Intelligent Control and Systems Engineering Center at the Institute of Automation, Chinese Academy of Sciences (CAS), Beijing, China, and in 2002, was appointed as the Director of the Key Laboratory of Complex Systems and Intelligence Science, CAS. In 2011, he became the State Specially Appointed Expert and the Director of the State Key Laboratory for Management and Control of Complex Systems. He is a FELLOW of IEEE, INCOSE, IFAC, ASME, and AAAS. Since 1997, he has been serving as the General or Program Chair of over 30 IEEE, INFORMS, IFAC, ACM, and ASME conferences. He was the President of the IEEE ITS Society from 2005 to 2007, the Vice President of the ACM China Council from 2010 to 2011, and the Vice President and the Secretary-General of the Chinese Association of Automation from 2008-2018. He was the Founding Editor-in-Chief (EiC) of the International Journal of Intelligent Control and Systems from 1995 to 2000, the IEEE ITS Magazine from 2006 to 2007, the IEEE/CAA JOURNAL OF AUTOMATICA SINICA from 2014-2017. He was the EiC of the IEEE Intelligent Systems from 2009-2012, the IEEE TRANSACTIONS ON Intelligent Transportation Systems from 2009-2016, and is the EiC of the IEEE TRANSACTIONS ON COMPUTATIONAL SOCIAL SYSTEMS from 2017-2020. Currently, he is the President of CAA's Supervision Council, IEEE Council on RFID, and Vice President of IEEE Systems, Man, and Cybernetics Society.

Eduard Muljadi (Fellow, IEEE) received the Ph.D. degree in electrical engineering from the University of Wisconsin, Madison, WI, USA, in 1987. He was a Faculty with the California State University, Fresno, CA, USA, from 1988 to 1992. From 1992 to 2017, he was with the National Renewable Energy Laboratory, Golden, CO, USA. And, in January 2018, he was with Auburn University, Auburn, AL, USA, as the James J. Danaher Distinguished Professor. He holds patents in power conversion for renewable energy. His research interests include electric machines, power electronics and power systems, and renewable energy. Dr. Muljadi is a Member of Eta Kappa Nu and Sigma Xi, and an Editor for the IEEE Transactions on Energy Conversion. He is a Founding Member and the past Chair of Renewable Energy Machines and Systems and the Chair of the Advanced Pumped Storage Hydropower Modeling Task Force within the PES.

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