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The Renewable Energy-Water-Environment Nexus. Fundamentals, Technology, and Policy

  • Book

  • September 2023
  • Elsevier Science and Technology
  • ID: 5790063

The Renewable Energy-Water-Environment Nexus: Fundamentals, Technology, and Policy explores the connections between renewable energy, water, and the environment, along with their integration in the context of awareness, technologies, challenges, opportunities, and solutions. The book introduces different renewable energy technologies, including the importance of their development, use for a sustainable future, and their interrelationships. In-depth chapters then examine specific sub-relationships, focusing on renewable energy and water, renewable energy and the environment, and water and the environment. Available methods and tools for analyzing the renewable energy-water-environment nexus, including life cycle assessment of renewable energy systems are also covered.

The last section of the book highlights key technologies and opportunities in the nexus, considering areas such as innovative cooling systems for thermoelectric plants to reduce or eliminate the use of water for cooling, reduction of water use in biofuels production, sea waves for desalination, grid management, energy storage systems, and hydrogen technologies, examining the integration of renewable energy, water, and environment-related policies, and discussing the application of artificial intelligence and nanotechnology techniques.

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Table of Contents

1. Renewable Energy for a Sustainable Future 2. Introduction to Renewable Energy-Water-Environment Nexus Concept 3. Renewable Energy-Water Nexus 4. Renewable Energy-Environment Nexus 5. Water-Environment Nexus 6. Renewable Energy-Water-Environment Nexus Analysis 7. Life Cycle Assessment of Renewable Energy Systems 8. Technology Development in the Nexus of Renewable Energy, Water, and Environment 9. Policies Related to Renewable Energy-Water-Environment Nexus 10. Artificial Intelligence Application to the Nexus of Renewable Energy, Water, and Environment 11. Nanotechnology and the Renewable Energy-Water-Environment Nexus

Authors

Shahryar Jafarinejad Chemical Engineering Department, College of Engineering, Tuskegee University, USA.

Dr. Shahryar Jafarinejad is an Assistant Professor of Chemical Engineering at Tuskegee University (TU), United States, where he also serves as a faculty senate member since 2019. Before joining TU in 2018, he worked as a postdoctoral researcher at the University of California, Irvine. He has taught chemical engineering courses at TU, University of Tehran, and the College of Environment, and Technical and Vocational University (Iran), and supervised undergraduate and graduate students. He has published three books, several book chapters, and numerous peer-reviewed journal and conference papers, and has served as an editorial board member and reviewer of engineering journals. His research group focuses on green technologies and sustainable materials, energy and environment, and applying nanotechnology and modeling and simulation tools to solve problems in chemical and environmental engineering. He received the Henry C. McBay Faculty Research Fellowship from UNCF and the Outstanding Faculty Performance Award for Research and Teaching/Learning at TU in 2020 and 2022, respectively.

Bryan Beckingham Chemical Engineering Department, Samuel Ginn College of Engineering, Auburn University, USA. Dr. Bryan S. Beckingham is an associate professor of chemical engineering at Auburn University (AU), United States, and director of the Auburn University's Center for Polymers and Advanced Composites. At Auburn University, he is also serving as the faculty senate (2017?present) and as a member of the Chemical Engineering Graduate Program Committee, among other roles. Before joining Auburn University in 2016, he received his BS in chemical engineering from Clarkson University in 2007, his PhD in chemical and materials engineering from Princeton University in 2013, and was a materials postdoctoral fellow at Lawrence Berkeley National Laboratory as a member of the Material Science Division and the Joint Center for Artificial Photosynthesis from 2013 to 2015. He is a recipient of a US Department of Energy Early Career Award and is among the Industrial Engineering and Chemistry Research's 2021 Class of Influential Researchers-The Americas. His research group focuses on leveraging synthetic polymer chemistry and materials characteri?zation to inform the design of novel polymer materials for target applications, with particular emphasis on polymer membranes for fuel cells and solar fuels devices, hierarchically structured matter for applications in energy and water, and additive manufacturing polymer functional polymer systems. He is also active in engineer?ing education as a past invited participant of the National Academy of Engineering: Frontiers of Engineering Education Symposium and as the chair of the Chemical Engineering Division of the ASEE Southeast Region.