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Sea Water Desalination in Microgrids: Green Energy and Technology

Autor Enrique Rosales-Asensio, Francisco José García-Moya, David Borge-Diez, Antonio Colmenar-Santos
en Limba Engleză Paperback – 23 feb 2023
This book investigates the sustainability performance of system that use microgrids in desalination processes. Climate change may be especially dramatic in its effects on island environments. In these environments, aquifers and wells could become over exploited resulting the use of desalination plans. The synergies between water, energy, and food sectors have been identified as vital in achieving the United Nation’s Sustainable Development Goals.
The book explores desalination and microgrids technically as well the economic and legal aspects that must be considered in order explore their techno-economic feasibility - analyzing how to improve the desalination process, proposing a method to locate and size a microgrid. Other synergies between the water, energy, and food system are discussed and the benefits to society that might result in these systems. Also, the lessons learned are highlighted in the context of how they may apply to other sustainable enterprises.

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Specificații

ISBN-13: 9783030966805
ISBN-10: 3030966801
Pagini: 221
Ilustrații: XXII, 221 p. 111 illus., 103 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.38 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Seria Green Energy and Technology

Locul publicării:Cham, Switzerland

Cuprins

Introduction.- Revision of Decision/Making Tools for Sustainable Planning and Proposal of a Novel Conceptual Framework for the Energy-Water-Food Nexus.- Comprehensive assessment of Gran Canaria food-energy-water nexus with GIS-based tool.- Review of Wind energy technology and associated market and economic conditions in Spain.- Photovoltaic self-consumption and net-metering: Measures to remove economic non-market failure and institutional barriers that restrict their use in Spain.-  Surrogate optimization of coupled energy sources in a desalination microgrid based on solar PV and wind energy.- Reduction of water cost for an existing wind energy-based desalination scheme: A preliminary configuration.- Stress Mitigation of Conventional Water Resources in Water-Scarce areas through the use of Renewable Energy Powered Desalination Plants: An application to the Canary Islands.- Feasibility Analysis of Wind and Solar Powered Desalination Plants: An Application to Islands.

Notă biografică

Dr. Rosales-Asensio (Ph.D.) is Assistant Professor, Doctor, and Industrial Engineer with postgraduate degrees in electrical engineering, business administration, and quality, health, safety and environment management systems. Before starting as assistant professor at the ULPGC, I was, for two academic years, Assistant Professor at the Department of Electrical and Systems Engineering and Automatics at the University of León. Prior to this teaching experience, I was Researcher in a project that evaluated the applicability of desalination systems based on renewable energies in water-scarce regions (University of La Laguna). With regard to my research activity, I have published 30 scientific articles in journals indexed in the JCR (all of them Q1/Q2); I have been PI of a regional R&D&I project with a competitive call; I have supervised a doctoral thesis in which relevant contributions were generated; I accredit 5 relevant publications in collaboration with researchers belonging to foreign research centres of recognized prestige; I accredit a 12-month international mobility supported by verifiable results; I have participated, as Associate Editor, in the editorial committees of three journals indexed in the JCR; I have regularly evaluated articles for journals indexed in the JCR; I have authored 12 book chapters that include the results of scientific or technological research; I have contributed to 10 research conferences with relative quality indexes; and I have edited 7 international books and 12 special issues of journals indexed in the JCR.



Mr. Francisco José García Moya is Industrial Engineer with postgraduate degrees in electrical engineering, business administration, and quality, health, safety and environment management systems. Currently, he is Researcher at the University of León, where he is involved in water desalination project in which the resulting surplus electricity and water would be sold. He has also worked as Design Engineerof renewable projects.



Dr. David Borge-Diez has a Ph.D. in Industrial Engineering and a M.Sc. in Industrial Engineering, both from the School of Industrial Engineering at the National Distance Education University (UNED). He is currently Lecturer and Researcher at the Department of Electrical, Systems and Control Engineering at the University of León, Spain. He has been involved in many national and international research projects investigating energy efficiency and renewable energies. He has also worked in Spanish and international engineering companies in the field of energy efficiency and renewable energy for over eight years. He has authored more than 25 publications in international peer-reviewed research journals and participated in numerous international conferences.


Dr. Colmenar-Santos is Senior Lecturer in the field of electrical engineering at the Department of Electrical, Electronic and Control Engineering at the National Distance Education University (UNED by its acronym in Spanish); from June 2014, Dr Colmenar-Santos obtained a favourable resolution from the National Agency for Quality Assessment and Accreditation of Spain (ANECA by its acronym in Spanish) to be habilitated as Full Professor. Dr Colmenar-Santos has been Adjunct Lecturer at both the Department of Electronic Technology at the University of Alcalá and at the Department of Electric, Electronic and Control Engineering at UNED. He has worked for AECI-ICI as high-qualified Consultant at the INTECNA project (Nicaragua) and been part of the Spanish section of the International Solar Energy Society (ISES) and of the Association for the Advancement of Computing in Education (AACE), working in a number of projects related to renewable energies and multimedia systems applied to teaching. Dr Colmenar-Santos has been Coordinator of both the virtualization and telematic services at ETSII-UNED, as well as Deputy Head Teacher (administration), and Head of the Department of Electrical, Electronics and Control Engineering at UNED.
Dr. Colmenar-Santos is Author of more than 80 papers published on top peer-reviewed journals. He has participated in more than 100 national and international conferences related to renewable energies and multimedia systems applied to teaching. As a result of his extensive experience of more than 30 years as Full-Time Teacher, he has missed out in the subjects where he is Main Teacher; most of these are related to Energy, a book that would specifically explore the application of nonlinear global stochastic optimization for the optimization of the sizing of renewable facilities attached to a reverse osmosis desalination plant in order to achieve the lowest cost of producing electricity and water or simply providing the maximal benefit regardless of the operation. This text would fill the literature knowledge gap. As a result, it would be of interest to the following readers: undergraduate and postgraduate engineering students, professionals in the field of microgrids and smart grids, and energy policymakers.
 

Textul de pe ultima copertă

This book investigates the sustainability performance of system that use microgrids in desalination processes. Climate change may be especially dramatic in its effects on island environments. In these environments, aquifers and wells could become over exploited resulting the use of desalination plans. The synergies between water, energy, and food sectors have been identified as vital in achieving the United Nation’s Sustainable Development Goals.
The book explores desalination and microgrids technically as well the economic and legal aspects that must be considered in order explore their techno-economic feasibility - analyzing how to improve the desalination process, proposing a method to locate and size a microgrid. Other synergies between the water, energy, and food system are discussed and the benefits to society that might result in these systems. Also, the lessons learned are highlighted in the context of how they may apply to other sustainable enterprises.

Caracteristici

Introduces both pre- and post-sustainability discussion of a renewable-powered desalination plants Investigates the sustainability performance of systems Invites advanced readers to explore deeper design issues of renewable powered desalination plants