The book consists of selected and peer reviewed papers from 13th International Conference on Renewable and Clean Energy (2023), which aims to address and deliberate on the latest technical status and recent trends in the research and applications of renewable energy system and sources (RESSs), renewable energy sources include solar, wind, biomass, fuel cells, hydropower, hydrogen, nuclear, geothermal etc. The topics covered in the proceedings include energy transformation from renewable energy system (RES) to grid, novel energy conversion studies for RESs, power devices and driving circuits…mehr
The book consists of selected and peer reviewed papers from 13th International Conference on Renewable and Clean Energy (2023), which aims to address and deliberate on the latest technical status and recent trends in the research and applications of renewable energy system and sources (RESSs), renewable energy sources include solar, wind, biomass, fuel cells, hydropower, hydrogen, nuclear, geothermal etc. The topics covered in the proceedings include energy transformation from renewable energy system (RES) to grid, novel energy conversion studies for RESs, power devices and driving circuits for RESs, control techniques for RESs, grid interactive systems used in hybrid RESs, performance analysis of RESs, hybrid RESSs, renewable energy research and applications for Industries, RESSs for electrical vehicles and components, artificial intelligence and machine learning studies for RESs and applications, computational methods for RESSs, smart grids and RESSs, safety and security of RESSs, renewable energy systems in smart cities. This book will be very useful for graduate students, researchers and practicing engineers working in the fields of renewable energy.
Professor Mohan Kolhe is with the Faculty of Engineering and Science as full professor in Energy Systems Engineering with focus on Smart Grid and Renewable Energy Systems. He has also received the offer of Hafslund Professorship in Smart Grid from the Norwegian University of Science and Technology (NTNU). Prof. Kolhe has more than twenty-five years' academic experience at international level on electrical and renewable energy systems. He is a leading renewable energy technologist and has previously held academic positions at the world's prestigious universities eg University College London (UK / Australia), University of Dundee (UK); University of Jyvaskyla (Finland); and Hydrogen Research Institute, QC (Canada). Prof. Kolhe was a member of the Government of South Australia's first renewable energy board (2009-2011) and actively contributed on developing renewable energy policies for South Australia. Prof. Kolhe's academic work range from the smart grid, grid integration of renewable energy systems, energy storage, electrical vehicles, home energy management system, integrated renewable energy systems for hydrogen production, techno-economics of energy systems, solar and wind energy engineering, development of business models for distributed generation. Prof. Kolhe has been successful in winning research funding from prestigious research councils (eg EU, Norwegian Research Council, EPSRC, BBSRC, Northern Research Partnership Scotland, etc.) for his work on sustainable energy systems. He has published extensively in the area of Energy Systems Engineering. He has been invited by many international organizations for delivering expert lectures / courses / keynote addresses. He also has been a member of many academic promotion committees as well as expert member of international research councils.
Inhaltsangabe
Online Optimal Resources Mix of Power System Using Dizzy Dragonfly Algorithm.- The Substation Construction Project Location Selection in Thailand by using TOPSIS Technique.- Numerical Investigation of Wind-induced Vibration and TMD Damping Effect of the Large-span Transmission Tower-line System.- Geothermal Energy: Energy alternative to combat frosts and cold spells in Perú.- Selecting the Raw Material Plant of Biomass Power in the Northeastern Region of Thailand Using AHP and Fuzzy TOPSIS.
Online Optimal Resources Mix of Power System Using Dizzy Dragonfly Algorithm.- The Substation Construction Project Location Selection in Thailand by using TOPSIS Technique.- Numerical Investigation of Wind-induced Vibration and TMD Damping Effect of the Large-span Transmission Tower-line System.- Geothermal Energy: Energy alternative to combat frosts and cold spells in Perú.- Selecting the Raw Material Plant of Biomass Power in the Northeastern Region of Thailand Using AHP and Fuzzy TOPSIS.
Online Optimal Resources Mix of Power System Using Dizzy Dragonfly Algorithm.- The Substation Construction Project Location Selection in Thailand by using TOPSIS Technique.- Numerical Investigation of Wind-induced Vibration and TMD Damping Effect of the Large-span Transmission Tower-line System.- Geothermal Energy: Energy alternative to combat frosts and cold spells in Perú.- Selecting the Raw Material Plant of Biomass Power in the Northeastern Region of Thailand Using AHP and Fuzzy TOPSIS.
Online Optimal Resources Mix of Power System Using Dizzy Dragonfly Algorithm.- The Substation Construction Project Location Selection in Thailand by using TOPSIS Technique.- Numerical Investigation of Wind-induced Vibration and TMD Damping Effect of the Large-span Transmission Tower-line System.- Geothermal Energy: Energy alternative to combat frosts and cold spells in Perú.- Selecting the Raw Material Plant of Biomass Power in the Northeastern Region of Thailand Using AHP and Fuzzy TOPSIS.
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