Sustainable Energy Technologies for Seawater Desalination (eBook)

Sustainable Energy Technologies for Seawater Desalination provides comprehensive coverage of the use of renewable energy technologies for sustainable freshwater production. Included are design concepts for desalination and sustainable energy technologies based on thermodynamics, heat transfer, mass transfer and economics. Key topics covered include desalination fundamentals and models, desalination assessments using energy and exergy methods, economics of desalination and the optimization of renewable energy-driven desalination systems. Illustrative examples and case studies are incorporated throughout the book to demonstrate how to apply the concepts covered in practical scenarios.

Following a coherent approach, starting from fundamentals and basics and culminating with advanced systems and applications, this book is relevant for advanced undergraduate and graduate students in engineering and non-engineering programs.

• Provides a comprehensive resource on sustainable freshwater production
• Describes how to analyze renewable energy-based desalination using energy and exergy methods and economic assessments, and how to carry out performance optimization
• Incorporates numerous examples and case studies to illustrate practical applications
• Presents the most up-to-date information with recent developments

Marc A. Rosen is the Editor-in-Chief of the International Journal of Energy and Environmental Engineering and the founding Editor-in-Chief of Sustainability. He has written numerous books and journal articles. Professor Rosen received the President's Award from the Canadian Society for Mechanical Engineering in 2012. Currently, he is a Professor at the University of Ontario Institute of Technology, where he served as founding Dean of the Faculty of Engineering and Applied Science

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Sustainable Energy Technologies for Seawater Desalination provides comprehensive coverage of the use of renewable energy technologies for sustainable freshwater production. Included are design concepts for desalination and sustainable energy technologies based on thermodynamics, heat transfer, mass transfer and economics. Key topics covered include desalination fundamentals and models, desalination assessments using energy and exergy methods, economics of desalination and the optimization of renewable energy-driven desalination systems. Illustrative examples and case studies are incorporated throughout the book to demonstrate how to apply the concepts covered in practical scenarios. Following a coherent approach, starting from fundamentals and basics and culminating with advanced systems and applications, this book is relevant for advanced undergraduate and graduate students in engineering and non-engineering programs. Provides a comprehensive resource on sustainable freshwater production Describes how to analyze renewable energy-based desalination using energy and exergy methods and economic assessments, and how to carry out performance optimization Incorporates numerous examples and case studies to illustrate practical applications Presents the most up-to-date information with recent developments