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Full Description
Hybrid AC/DC Microgrids: Optimization, Energy Management, and Protection is a practical and holistic guide to the opportunities and challenges of this essential energy system technology. This book builds from fundamental concepts of design and operation management to recent advances and specific, practical scenarios. Combining both power management and quality control with real-world risk assessments, the chapters cover power generation options including wind, solar, and hydrogen. The chapters demonstrate modeling techniques, fault detection, and protection via both physical and AI methods, and include clearly formatted case studies, objectives, and worked problems to support reader understanding. Including guidance for protection and resilience in both normal and abnormal conditions, Hybrid AC/DC Microgrids: Optimization, Energy Management, and Protection prepares students, researchers, and industry engineers to design and maintain energy grids that will weather climate change and support a clean energy future.
Contents
1. Introduction to Hybrid AC/DC Microgrids
Part I: Design, Optimization, and Control of Multi-Energy Systems in Normal Conditions
2. Comprehensive Analysis of Scenarios, Decarbonization Strategies, and Methodological Frameworks for Sustainable Power Sector Transformation
3. Optimal Design of Green Hydrogen-Ammonia-Powered Multiuse Hybrid Microgrids
4. Small-Signal Modeling and Analysis of Hybrid AC/DC Microgrids
5. Adaptive Energy Management Strategies of Hybrid AC/DC Microgrids During Normal Conditions
Part II: Secure Operation and Protection of AC/DC Microgrid during Abnormal Conditions
6. Assessment of Lightning Strikes Effects on Hybrid AC/DC Microgrids
7. Protection of Hybrid AC/DC Microgrids Against Faults and Lightning Strikes Via Novel Design of Grounding Systems
8. Fault Detection and Location In Hybrid AC/DC Microgrids Via Grounding Systems and Artificial Intelligence Methods
