Integrated Green Energy Solutions, Volume 2
- 4h 54m
- Milind Shrinivas Dangate, O. V. Gnana Swathika, Sanjeevikumar Padmanaban, W. S. Sampath
- John Wiley & Sons (US)
- 2023
INTEGRATED GREEN ENERGY SOLUTIONS
This second volume in a two-volume set continues to present the state of the art for the concepts, practical applications, and future of renewable energy and how to move closer to true sustainability.
Renewable energy supplies are of ever-increasing environmental and economic importance in every country in the world. A wide range of renewable energy technologies has been established commercially and recognized as an important set of growth industries for most governments. World agencies, such as the United Nations, have extensive programs to encourage these emerging technologies.
This book will bridge the gap between descriptive reviews and specialized engineering technologies. It centers on demonstrating how fundamental physical processes govern renewable energy resources and their applications. Although the applications are being updated continually, the fundamental principles remain the same, and this book will provide a useful platform for those advancing the subject and its industries.
Integrated Resilient Energy Solutions is a two-volume set covering subjects of proven technical and economic importance worldwide. Energy supply from renewables is an essential component of every nation’s strategy, especially when there is responsibility for the environment and sustainability. These two volumes will consider the timeless renewable energy technologies’ principles yet demonstrate modern applications and case studies. Whether for the veteran engineer, student, or other professional, these two volumes are a must-have for any library.
About the Author
Milind Shrinivas Dangate, PhD, is currently an associate professor in the Department of Chemistry, Vellore Institute of Technology, Chennai, India. He has authored several publications and has a grant and a fellowship to his credit, in addition to several postdoctoral appointments.
W. S. Sampath, PhD, is a professor in the Department of Mechanical Engineering, Colorado State University, Director for Next Generation Photovoltaics (NGPV) Laboratory at Colorado State University, and Site Director at NSF I/UCRC for Next Generation Photovoltaics. With over 30 years of industry experience, he has contributed significantly to the science of renewable energy.
O. V. Gnana Swathika, PhD, is an associate professor in the School of Electrical Engineering at VIT Chennai, India. She earned her PhD in electrical engineering at VIT University and completed her postdoc at the University of Moratuwa, Sri Lanka.
Sanjeevikumar Padmanaban, PhD, is a faculty member with the Department of Electrical Engineering, IT and Cybernetics, University of South-Eastern Norway, Porsgrunn, Norway. He received his PhD in electrical engineering from the University of Bologna, Italy. He has almost ten years of teaching, research, and industrial experience and is an associate editor on a number of international scientific refereed journals. He has published more than 300 research papers and has won numerous awards for his research and teaching. He is currently involved in publishing multiple books with Wiley-Scrivener.
In this Book
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Energy Economics and Environment
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Stringent Energy Management Strategy during Covid-19 Pandemic
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Energy Management Strategy for Control and Planning
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Day-Ahead Solar Power Forecasting Using Statistical and Machine Learning Methods
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A Review on Optimum Location and Sizing of DGs in Radial Distribution System
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High Step Up Non-Isolated DC-DC Converter Using Active-Passive Inductor Cells
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A Non-Isolated Step-Up Quasi Z-Source Converter Using Coupled Inductor
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Datalogger Aided Stand-Alone PV System for Rural Electrification
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Working and Analysis of an Electromagnet-Based DC V-Gate Magnet Motor for Electrical Applications
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Design and Realization of Smart and Energy-Efficient Doorbell
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Optimal Solar Charging Enabled Autonomous Cleaning Robot
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Real-Time Health Monitoring System of a Distribution Transformer
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Analysis of Wide-Angle Polarization-Insensitive Metamaterial Absorber Using Equivalent Circuit Modeling for Energy Harvesting Application
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World Energy Demand
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Education in Energy Conversion and Management