Flexibility-Oriented Operation of Integrated Power and Gas Networks and Low-Carbon Technologies Under Clean Energy Transition - Brossura
Sinossi
Flexibility-Oriented Operation of Integrated Power and Gas Networks and Low-Carbon Technologies Under Clean Energy Transition provides a comprehensive examination of the critical role that integrated gas and electricity networks play in achieving a sustainable and low-carbon energy future. The book not only highlights the urgent need for flexibility in these interconnected systems, particularly through demand-side management and energy storage systems, but also addresses the pressing challenges posed by climate change and the transition away from fossil fuels. It offers insights into innovative low-carbon technologies, such as hydrogen and ammonia, while addressing the synthesis, storage, and transportation hurdles these renewable fuels face. The book's detailed contents cover essential topics, including the flexibility of coupled gas and electricity networks, operational strategies for achieving net-zero carbon emissions, and intelligent methods for assessing network adaptability. It provides a conceptual overview of decarbonization efforts for integrated energy systems and explores the feasibility of integrating artificial intelligence (AI) in these processes. Further, the book discusses the decoupling of emissions from economic growth, the role of negative emission technologies (NETs), and the application of innovative energy solutions such as gas carbon capture and storage (CCS) and hydrogen production. Case studies illustrate successful implementations of integrated networks worldwide, highlighting challenges and key lessons learned. Flexibility-Oriented Operation of Integrated Power and Gas Networks and Low-Carbon Technologies Under Clean Energy Transition serves as a vital resource for researchers in clean energy, decarbonization specialists, hydrogen production experts, energy utility companies, energy economists, electrical engineers, mechanical engineers, artificial intelligence developers, policymakers, energy service providers, and students in energy systems and is sure to be a welcomed resource.
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Informazioni sugli autori
Mohammad Taghi Ameli received his B.Sc. degree in electrical engineering from Technical College of Osnabrück, Germany, in 1988, and his M.Sc. and Ph.D. degrees from Technical University of Berlin, Berlin, Germany, in 1992 and 1997, respectively. He is a Professor of Department of Electrical Engineering and Head of Electrical Networks Research Institute at Shahid Beheshti University. He was the General Director of the Iran Research and Technology Institute for Electric Machines for three years. His research interests include power system simulation, operation, planning, and control of power systems, renewable energy in power systems, and smart grids.
Mohammad Mehdi Amiri got his PhD degree in electrical engineering department at Shahid Beheshti University. His research is mainly focused on the integrated operation of gas/hydrogen and electricity networks, electricity markets, and decarbonization. He collaborates with the Electrical Networks Research Institute as a research associate and Noursun Energy Company as an optimization and electricity market manager.
Hossein Ameli is an advanced research fellow in the Department of Electrical and Electronic Engineering at Imperial College London. He received his PhD from Imperial College London in 2018 and has more than 12 years of experience in integrated energy system modelling. His expertise spans the planning and operation of whole-energy systems, with particular emphasis on electricity, gas and hydrogen interactions, system flexibility,
resilience, and pathways to net zero. He has contributed to major research, policy and industry projects, including work for the UK Climate Change Committee (CCC) and the National Energy System Operator (NESO). He
is a contributing author to the IPCC Working Group III and a member of the UNECE Committee on Sustainable Energy
Sasan Azad is a research associate in the Electrical Network Research Institute at Shahid Beheshti University, Iran. His main areas of interest are the security and voltage stability of power systems, smart grids, and electric vehicles
Mohammadreza Daneshvar, PhD, SMIEEE, is an Assistant Professor, founder and head of the Laboratory of Multi-Carrier Energy Networks Modernization at the Faculty of Electrical and Computer Engineering, University of Tabriz, Tabriz, Iran. Prior to that, he was a postdoctoral research fellow in the field of modern multi-energy networks at the Smart Energy Systems Lab of the University of Tabriz for two years. He obtained his MSc and PhD degrees in Electrical Power Engineering from the University of Tabriz, all with honors. He has (co)authored more than 50 technical journal and conference articles, 10 books, 30 book chapters, and 10 national and international research projects in the field. Dr. Daneshvar is a member of the Editorial Board of the Energy and Built Environment Journal and the Early Career Editorial Board of the Sustainable Cities and Society Journal. He also served as the guest editor for the Sustainable Cities and Society, and Sustainable Energy Technologies and Assessments journals. Moreover, he serves as an active reviewer with more than 130 top journals, and was ranked among the top 1% of reviewers in Engineering and Cross-Field based on Publons global reviewer database. His research interests include Smart Grids, Transactive Energy, Energy Management, Renewable Energy Sources, Integrated Multi-Energy Systems, Grid Modernization, Electrical Energy Storage Systems, Sustainable Cities and Society, Microgrids, Energy Hubs, Machine Learning and Deep Learning, Digital Twin, and Optimization Techniques and AI.
Dalla quarta di copertina
Flexibility-Oriented Operation of Integrated Power and Gas Networks and Low-Carbon Technologies Under Clean Energy Transition provides a comprehensive examination of the critical role that integrated gas and electricity networks play in achieving a sustainable and low-carbon energy future. The book not only highlights the urgent need for flexibility in these interconnected systems, particularly through demand-side management and energy storage systems, but also addresses the pressing challenges posed by climate change and the transition away from fossil fuels. It offers insights into innovative low-carbon technologies, such as hydrogen and ammonia, while addressing the synthesis, storage, and transportation hurdles these renewable fuels face. The book's detailed contents cover essential topics, including the flexibility of coupled gas and electricity networks, operational strategies for achieving net-zero carbon emissions, and intelligent methods for assessing network adaptability. It provides a conceptual overview of decarbonization efforts for integrated energy systems and explores the feasibility of integrating artificial intelligence (AI) in these processes. Further, the book discusses the decoupling of emissions from economic growth, the role of negative emission technologies (NETs), and the application of innovative energy solutions such as gas carbon capture and storage (CCS) and hydrogen production. Case studies illustrate successful implementations of integrated networks worldwide, highlighting challenges and key lessons learned. Flexibility-Oriented Operation of Integrated Power and Gas Networks and Low-Carbon Technologies Under Clean Energy Transition serves as a vital resource for researchers in clean energy, decarbonization specialists, hydrogen production experts, energy utility companies, energy economists, electrical engineers, mechanical engineers, artificial intelligence developers, policymakers, energy service providers, and students in energy systems and is sure to be a welcomed resource.
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