Next-Generation Cyber-Physical Microgrid Systems: A Practical Guide to Communication Technologies and Resilience presents the opportunities and challenges of using communication network technology to integrate distributed generation systems into microgrids. Working their way through case studies and theoretical strategies, the book's global range of authors analyze the particular needs of different system structures, including DC, AC-DC and hybrid microgrids, island-bound or grid-connected systems, and case studies in wind power and photovoltaic systems. Risks arising from the communication networks are addressed in detail, with strategies covered including modeling, cyber-physical security set-ups, applications of blockchain, demand-response analyses, and the impact and mitigation of cyber-attacks. Power-electronics interfaces for the integration of these technologies are also demonstrated and explained. With a wealth of real-world, practical advice for the implementation and protection of these communication strategies, this book will be a useful resource for researchers and industry professionals developing the sustainable energy systems of the future.
1. Demand Response Analysis in Microgrids with Block Chain: A Comprehensive Cyber-Physical Approach
2. Cyber-Physical Security in a Standalone Photovoltaic System for Rural Electrification
3. Wind Power Forecasting Systems for Optimum Energy Management in Microgrid
4. A Critical Review of DG-Interfaced DC Microgrid Protection
5. Modelling and Optimization of Distributed Energy Resources in Microgrid
6. Microgrid Energy Management Systems with Secure Communication Modelling
7. Modelling and Analysis of a Standalone Hybrid Green Microgrid System
8. Deployment of Cyber-Communication Networks in Microgrids
9. Detecting and Mitigating Cyber Physical Attacks in Microgrids to Ensure Resilient and Sustainable Communities
10. Block-Chain Technology for Hybrid AC-DC Microgrids
O.V. Gnana Swathika is currently a Senior Associate Professor at the Centre for Smart Grid Technologies in the School of Electrical Engineering at Vellore Institute of Technology, India. Her current research interests include microgrid protection, power system optimization, embedded systems, and photovoltaic systems.
Mr Karthikeyan is the Chief Engineering Manager in Electrical Designs at Larsen & Toubro Construction in Chennai, India. He is responsible for the preparation and review of complete electrical system designs up to 110 kV, detailed engineering stage covering by various electrical design calculations, design basis reports suitable for construction drawings, and Mechanical Electrical Plumbing (MEP) design coordination. Two decades in electrical design have included work on projects from airports, to steel and automobile plants in India and abroad (Sri Lanka, Dubai, and the UK), and he has worked at Voltas, ABB, and Apex Knowledge Technology Private Limited. Sanjeevikumar Padmanaban is a Full Professor in Electrical Power Engineering with the Department of Electrical Engineering, Information Technology, and Cybernetics of the University of South-Eastern Norway, Norway. He has over a decade of academic and teaching experience, including Associate/Assistant Professorships at the University of Johannesburg, South Africa (2016-2018), Aalborg University, Denmark (2018-2021) and the CTIF Global Capsule Laboratory at Aarhus University, Denmark (2021-present). Prof. Padmanaban received a lifetime achievement award from Marquis Whos Who - USA 2017 for contributing to power electronics and renewable energy research, and was listed among the worlds top 2% of scientists by Stanford University, USA in 2019.
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