Electric Power Systems Resiliency: Modelling, Opportunity and Challenges considers current strengths and weaknesses of various applications and provides engineers with different dimensions of flexible applications to illustrate their use in the solution of power system improvement. Detailing advanced methodologies to improve resiliency and describing resilient-oriented power system protection and control techniques, this reference offers a deep study on the electrical power system through the lens of resiliency that ultimately provides a flexible framework for cost-benefit analysis to improve…mehr
Electric Power Systems Resiliency: Modelling, Opportunity and Challenges considers current strengths and weaknesses of various applications and provides engineers with different dimensions of flexible applications to illustrate their use in the solution of power system improvement. Detailing advanced methodologies to improve resiliency and describing resilient-oriented power system protection and control techniques, this reference offers a deep study on the electrical power system through the lens of resiliency that ultimately provides a flexible framework for cost-benefit analysis to improve power system durability.
Aimed at researchers exploring the significance of smart monitoring, protecting and controlling of power systems, this book is useful for those working in the domain of power system control and protection (PSOP). Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Ramesh C. Bansal is a Professor at University of Sharjah and Extraordinary Professor at University of Pretoria. He has over 25 years of teaching and research experience, and previously worked at University of Pretoria, University of Queensland, University of South Pacific, and BITS, Pilani. He has published over 400 journal/conf. papers, books/book chapters, and is he AE/Editor of many reputed journals. He has Google citations of over 16000 and h-index of 60. He has supervised 25 PhD, 5 Post Docs. He is a Fellow of IET-UK, IE (India), SAIEE (South Africa).Manohar Mishra is an Associate Professor in the Department of Electronics and Electrical Engineering, Faculty of Engineering and Technology, Siksha 'O' Anusandhan Deemed to be University, Bhubaneswar, Odisha, India. He received his PhD in Electrical Engineering, MTech in Power Electronics and Drives, and BTech in Electrical Engineering in 2017, 2012, and 2008, respectively. He has published more than 50 research papers in various peer-reviewed international journals and conferences. He has edited three research books, and has served as a reviewer for journal publishers such as the Institute of Electrical and Electronics Engineers (IEEE), Springer, Elsevier, and Inderscience. At present, he has more than 10 years of teaching experience in the field of electrical engineering. He is a senior member of the IEEE, and is currently guiding four PhD scholars. His areas of interest include power system analysis, power system protection, signal processing, power quality, distribution genera
tion systems, and micro-grids. He has served as Convener and Volume Editor of the International Conference on Innovation in Electrical Power Engineering, Communication and Computing Technology (IEPCCT-2019, IEPCCT-2021) and the International Conference on Green Technology for Smart City and Society (GTSCS-2020). Currently, he is serving as Guest Editor for different journals such as International Journal of Power Electronics (Inderscience), International Journal of Innovative Computing and Application (Inderscience), and Neural Computing and Application (Springer).
Inhaltsangabe
1. Overview and Architecture of resilient energy systems 2. Resilient smart-grid system: Issue and Challenges 3. Adaptive and flexible power generation for resilience 4. Enhancing relay resiliency in an electric power transmission system 5. Protection from physical and cyber-attacks to improve the resiliency 6. Enhancing relay resiliency in an electric power distribution network with renewable power generating resources 7. Microgrid as an Resilient source 8. Big data, Cloud computing and Internet of thing (IoT) to improve the resiliency 9. Data integration and analytics for resilience improvement 10. Cost/benefit analysis for resiliency
1. Overview and Architecture of resilient energy systems 2. Resilient smart-grid system: Issue and Challenges 3. Adaptive and flexible power generation for resilience 4. Enhancing relay resiliency in an electric power transmission system 5. Protection from physical and cyber-attacks to improve the resiliency 6. Enhancing relay resiliency in an electric power distribution network with renewable power generating resources 7. Microgrid as an Resilient source 8. Big data, Cloud computing and Internet of thing (IoT) to improve the resiliency 9. Data integration and analytics for resilience improvement 10. Cost/benefit analysis for resiliency
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