Modelling and Control Dynamics in Microgrid Systems with Renewable Energy Resources looks at complete microgrid systems integrated with renewable energy resources (RERs) such as solar, wind, biomass or fuel cells that facilitate remote applications and allow access to pollution-free energy. Designed and dedicated to providing a complete package on microgrid systems modelling and control dynamics, this book elaborates several aspects of control systems from classical approach to advanced techniques based on artificial intelligence. It captures the typical modes of operation of microgrid systems with distributed energy storage applications like battery, flywheel, electrical vehicles infrastructures that are integrated within microgrids with desired targets. More importantly, the techno-economics of these microgrid systems are well addressed to accelerate the process of achieving the SDG7 i.e., affordable and clean energy for all (E4ALL). This reference presents the latest developments including step by step modelling processes, data security and standards protocol for commissioning of microgrid projects, making this a useful tool for researchers, engineers and industrialists wanting a comprehensive reference on energy systems models.
- Includes simulations with case studies and real-world applications of energy system models
- Detailed systematic modelling with mathematical analysis is covered
- Features possible operating scenarios with solutions to the encountered issues
1. Overview of renewable energy power system dynamics
2. Conceptual framework of microgrid and virtual power plants with renewable energy resources
3. Modeling and control dynamics of microgrid with renewable energy systems (with steady state, symmetrical faults, unsymmetrical faults analysis)
4. Grid code requirements for microgrid systems with renewable energy technologies
5. Microgrid systems with classical control techniques
6. Application of advanced control strategies for optimal integration of renewable energy technologies with HVDC systems technology
7. Optimal operations of renewable power systems in microgrid and virtual power plants
8. Comprehensive discussions on energy storage devices: Modeling, control, stability analysis with renewable energy resources in microgrid and virtual power plants
9. FRT Techniques based on hardware circuits (crowbar and related Versions, chopper, SBR and integrated circuits)
10. FRT Technique based on FACTS Devices (STATCOM, SVC, DVR)
11. Design of resilience microgrid systems: A look on single to integrated multi-microgrid energy systems
12. Techno-economic analysis of renewable power systems (analysis of unit cost, payback period etc.)
13. Data security and privacy, cyber-security enhancement, and systems recovery approaches for microgrid networks with case studies
14. Step-by-step design, modeling and simulations of case studies and examples of microgrid and virtual power plants using design tool
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). Dr. J. J. Justo is currently working with the Department of Electrical Engineering, University of Dar es Salaam, Tanzania. His research interests are intelligent Systems for Big Energy, Power converter control using artificial intelligent control approaches (Fuzzy, Neural Networks, adaptive systems and model predictive control) for grid-code requirements, energy efficiency and management in smart city and transportation, electric vehicle (EVs) and drives, grid integration of renewable energy resources with nano grid, AC and DC microgrid, virtual power plants (VPPs) configuration and the energy internet i.e., Enernet”. Moreover, power system operation and dynamics, operating constraints for power pools, smart grid control, operation and protection with EVs and ESS using real-time digital simulation (RTDS) and OPAL-RT units. Dr. F. Mwasilu is currently working with Department of Electrical Engineering, University of Dar es Salaam, Tanzania. From 2008 to 2009 he was an Instrumentation Engineer with Illovo Sugar Ltd, Tanzania. From 2009 to 2011, he was a Utilities Engineer with the Japan Tobacco International, Tanzania. Since July 2016, he has been a Lecturer with the Department of Electrical. His current research interests include digital signal processor-based electric machine drives, electric vehicles, smart grid enabling technologies, and renewable energy sources integration into modern power systems.
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