Full Description
This book provides readers with a unified, forward-looking framework for understanding, designing, and optimizing monograph multi-energy systems that link electricity, heat, gas, and hydrogen. Rather than offering a descriptive overview of existing technologies, this book emphasizes theoretical rigor and methodological innovation, providing engineers, researchers, and system planners with the analytical tools and design principles necessary to develop intelligent, adaptive, and resilient microgrid architectures under complex and uncertain environments.
Structured into four cohesive parts—Preliminaries, Architecture, Control, and Applications—the book integrates foundational theory with engineering practice. It elaborates on hierarchical and distributed control structures, introduces adaptive dynamic programming (ADP) and learning-based optimization frameworks, and elucidates the role of digital intelligence in enhancing real-time decision-making and operational robustness. Comprehensive case studies drawn from industrial parks, islanded systems, and transportation energy networks demonstrate practical approaches toward achieving low-carbon, efficient, and resilient energy integration.
This book serves as both a scholarly reference and a methodological guide for advancing intelligent control, coordination, and optimization in next-generation sustainable energy infrastructures.
Contents
1.Introduction to Integrated Energy Microgrids.- 2.Topologies of Integrated Energy Microgrids.- 3.Component-based Architectures of IEMs.- 4.Control Architecture of Integrated Energy Microgrids.- 5.Control Strategies for Integrated Energy Microgrids.- 6.Basic Structure and Iterative Algorithms of Adaptive Dynamic Programming (ADP).- 7.Applications of ADP in IEMs Control.- 8."Microgrids in Industrial Parks: Practical Applications for Enhancing Resilience and Efficiency".- 9.Island Microgrids: Cornerstone of Sustainable Island Energy Systems.- 10.Microgrid Applications in Transport.
