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This book offers practical guidance for practitioner engineers, policymakers, and other decision-makers on how to implement solar photovoltaic water pumping systems to provide domestic clean water in off-grid regions of developing countries. By championing genuine multidisciplinary research and generating interdisciplinary results, this book develops models and approaches which indicate how it might be possible to overcome some of the limitations that technocratic approaches to renewable energy and water access pose to truly sustainable development.
The book addresses technical challenges
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Produktbeschreibung
This book offers practical guidance for practitioner engineers, policymakers, and other decision-makers on how to implement solar photovoltaic water pumping systems to provide domestic clean water in off-grid regions of developing countries. By championing genuine multidisciplinary research and generating interdisciplinary results, this book develops models and approaches which indicate how it might be possible to overcome some of the limitations that technocratic approaches to renewable energy and water access pose to truly sustainable development.

The book addresses technical challenges often found when promoting photovoltaic water pumping systems. It offers practical guidance to stakeholders on how to successfully select, install, and maintain photovoltaic water pumps to promote sustainable options for the poorest underserved areas/populations. A main novelty of this book is that, by using theoretical, as well as real/actual field-work data, and advanced modelling, it successfully connects energy systems engineering, environmental and geographical information and hydrology with population surveys which reveal local needs and conditions.

The book is timely and important. More than 665 700 million worldwide still do not have access to improved drinking water sources; eight out of ten live in rural areas typically located either in off-grid territory, or where connection to nearby grid is too expensive or unfeasible. Unsafe water is responsible for 1.2 million deaths each year, mainly correlated with the diarrheal diseases generated from drinking water from unimproved water sources. Sustainable Development Goal 6 (clean water and sanitation) may be achieved only if water is accessible to everyone, available when needed and free from contamination.


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Autorenporträt
Dr. Judith Alazraque Cherni is Senior Research Fellow and lectures part-time at the Centre for Environmental Policy, Imperial College London. Her research includes modelling of energy supply and demand, sustainable livelihoods, and renewable technologies. These progressed from her studies of international development, economics, and environmental sustainability. She has led and coordinated international research consortia; teaches and supervises postgraduates; and has authored many scientific articles, a book, and other materials.

Dr. Simon Meunier is an assistant professor at CentraleSupélec, Université Paris-Saclay, and the laboratory GeePs (France). He obtained his PhD in 2019 from Université Paris-Saclay. His current research deals with low-carbon technologies and interdisciplinary approaches and he notably focuses on photovoltaic energy systems in developing regions. He is involved in postgraduate teaching and supervision and has authored a large number of scientific articles and works.

Dr. Loïc Quéval is Associate Professor at CentraleSupélec, University of Paris-Saclay, Gif-sur-Yvette, France. He received the Ph.D. from the University of Tokyo, Tokyo, Japan, in 2013. He is currently with GeePs-CNRS Laboratory. His current research focuses on the techno-economic assessment of technological innovations in the field of electrical engineering. He is involved in postgraduate teaching and supervision and has authored a large number of scientific articles.