Advanced Modeling, Analysis and Optimization of Thermal and Integrated Energy Systems introduces readers to the cutting-edge "heat current method," a breakthrough in accurately modeling complex thermodynamic systems. This book thoroughly examines the challenges inherent in renewable energy transitions and demonstrates how holistic power-thermal system optimization can play a pivotal role in sustainability efforts. Authored by leading experts, it provides both a foundational overview and advanced techniques, making it an essential resource for researchers, engineers, and professionals who are driving innovation in thermal engineering and energy system optimization.

The text delves into the fundamentals and applications of the heat current method, offering practical frameworks for efficient simulation and optimization of integrated power-thermal systems. Additional chapters explore strategies for coordinating flexibility and efficiency to better accommodate renewable energy sources. With its focus on advanced methodologies and real-world solutions, the book is particularly valuable for those involved in system optimization and the integration of sustainable energy technologies.

• Introduces a novel heat current method for the accurate and efficient modeling of thermodynamic systems
• Explores the holistic modeling and optimization of integrated power and thermal systems to enhance flexibility
• Discusses a spatiotemporal coordination principle for optimal resource management in distributed energy systems
• Analyzes current studies and provides a systematic review of modeling and analysis methods for thermodynamic systems
• Evaluates the practical implementation and direct applicability of advanced techniques for renewable energy transitions