Energy Storage for Multigeneration
Desalination, Power, Cooling and Heating Applications
- 1st Edition - October 8, 2022
- Imprint: Academic Press
- Editor: Veera Gnaneswar Gude
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 1 9 2 0 - 1
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 2 1 9 2 1 - 8
Energy Storage for Multi-generation: Desalination, Power, Cooling and Heating Applications is designed to help readers implement and manage highly-efficient energy storage e… Read more
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Request a sales quoteEnergy Storage for Multi-generation: Desalination, Power, Cooling and Heating Applications is designed to help readers implement and manage highly-efficient energy storage enabled industrial processes. The book provides an overview on energy storage technologies, recent trends around the world, and a discussion on the sustainability components of energy storage in different applications. Case studies for integrated power-water production schemes integrated with energy storage are also included, along with tactics to critically evaluate drivers that influence energy storage integration into power-water production schemes, including desalination, tri-generation and poly-generation concepts and configurations.
This book will provide all engineers and researchers a better understanding of the application of renewable energy in desalination and the thermodynamic processes and laws involved.
- Identifies appropriate power-water production schemes to integrate into energy storage systems
- Determines the returned value of energy storage systems and their lifecycle assessment
- Assesses the techno-economic and socio-environmental aspects surrounding the sustainable integration of energy storage systems
Electrical engineers, systems engineers, chemical engineers, mechanical engineers and researchers interested in energy production and storage. Environmental sustainability, thermal engineers and nuclear scientists and engineers
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Chapter 1: Energy storage for sustainable desalination and renewable energy integration
- Abstract
- 1: Introduction
- 2: Energy storage systems
- 3: Benefits of energy storage
- 4: Description of energy storage systems
- 5: Comparison of energy storage systems
- 6: Applications of energy storage systems
- 7: Development needs for energy storage systems
- 8: Energy-water nexus
- 9: Desalination for water supplies
- 10: Energy storage for desalination
- 11: Summary
- References
- Chapter 2: Energy storage options for large-scale PV-RO desalination plants
- Abstract
- 1: Introduction
- 2: Reverse osmosis desalination and energy use
- 3: Energy storage options
- 4: Modeling of large-scale PV-RO desalination
- 5: Feasibility of PV-drive RO desalination
- 6: Final remarks and future perspectives
- References
- Chapter 3: Global potential for renewable energy powered desalination in the irrigation sector
- Abstract
- 1: Introduction
- 2: Demand for renewable-energy-based desalination
- 3: Details of the energy system required
- 4: Improved irrigation systems and 100% renewable energy powered desalination
- 5: Opportunities and direction for future research
- 6: Conclusions
- References
- Chapter 4: Use of RES-powered desalination in water-stressed regions. A case study in Algarve, Portugal
- Abstract
- Acknowledgments
- 1: Introduction
- 2: Methods
- 3: Case study
- 4: Results and discussion
- 5: Toward a new water supply paradigm
- 6: Conclusions
- References
- Chapter 5: Solar-energy-driven desalination cycle with an energy storage option
- Abstract
- Acknowledgment
- 1: Introduction
- 2: Energy storage systems
- 3: Proposed thermal energy storage material reaction
- 4: Proposed integrated system operation
- 5: System experimentation
- 6: Conclusion
- References
- Chapter 6: Energy storage in nuclear desalination plants
- Abstract
- 1: Energy storage in nuclear power plants
- 2: Nuclear-powered desalination
- 3: Desalination as an energy storage proxy
- 4: Economic and capacity analysis of nuclear-powered water desalination
- 5: Water desalination as a proxy for energy storage systems in NPP
- 6: Safety concerns of nuclear-powered desalination
- References
- Chapter 7: Desalination powered by hybrid solar photovoltaic (PV) and tidal range energy systems—Future prospects
- Abstract
- Acknowledgment
- 1: Introduction
- 2: Electricity production by tidal-range power plants
- 3: Hybrid solar/tidal desalination plants
- 4: Future prospects of desalination powered by tidal-range plants
- 5: Conclusions
- References
- Chapter 8: Nanoparticles-enhanced energy storage materials in solar thermal desalination
- Abstract
- Acknowledgments
- 1: Introduction
- 2: Solar desalination
- 3: Thermal energy storage in solar desalination
- 4: PCMs in solar desalination
- 5: Advent of nanoparticles in energy storage
- 6: Nanoparticles in TES for solar desalination
- 7: Future research prospects
- 8: Conclusion
- References
- Chapter 9: Solar desalination with energy storage
- Abstract
- 1: Introduction
- 2: Solar desalination
- 3: Energy storage technologies for solar desalination systems
- 4: Conclusion
- References
- Chapter 10: Economic and environmental aspects of solar desalination with energy storage
- Abstract
- 1: Introduction
- 2: Overview of energy storage technologies
- 3: Economics of energy storage systems in desalination
- 4: Environmental impacts
- 5: Future perspectives of energy storage in desalination
- 6: Conclusion
- References
- Chapter 11: Thermal energy storage in concentrated solar power plants
- Abstract
- 1: A brief history of concentrated solar power
- 2: Working principle of central tower-based CSP plants
- 3: Primary components of the CSP
- 4: Concluding remarks
- References
- Index
- Edition: 1
- Published: October 8, 2022
- No. of pages (Paperback): 310
- No. of pages (eBook): 310
- Imprint: Academic Press
- Language: English
- Paperback ISBN: 9780128219201
- eBook ISBN: 9780128219218
VG
Veera Gnaneswar Gude
Dr. Veera Gnaneswar Gude is Professor of Environmental and Ecological Engineering at Purdue University (West Lafayette, IN), and Professor of Civil and Environmental Engineering and NiSource-Meyer Charitable Foundation Endowed Professor in the Department of Mechanical and Civil Engineering at Purdue University Northwest (Hammond, IN), in the United States. Prof. Gude is also the Director of the Purdue University Northwest Water Institute (PWI). Prior to this, He was a tenured full Professor and Kelly Gene Cook Sr. Endowed Chair at Mississippi State University. Dr. Gude obtained his Ph.D. in Environmental Engineering from New Mexico State University. His research interests include energy, water and environment nexus, resource recovery from wastewater and sustainable energy systems development. His research efforts have received funding from federal agencies such as NSF, USEPA, USGS, and USDA, and other industry and international agencies. Prof. Gude has published over 150 scientific research articles and 9 books on bioenergy, desalination, and wastewater treatment research.Teaching in principles and advanced topics in environmental engineering, his research interests include energy, water nexus and energy-environment nexus and clean and combined energy production.
Affiliations and expertise
Department of Mechanical and Civil Engineering and Purdue University Northwest Water Institute (PWI), Purdue University Northwest, Hammond, IN, United StatesRead Energy Storage for Multigeneration on ScienceDirect