Description
Flexibility-Oriented Operation of Integrated Power and Gas Networks and Low-Carbon Technologies Under Clean Energy Transition examines the critical role that integrated gas and electricity networks play in achieving a sustainable, low-carbon energy future. Sections cover innovative low-carbon technologies, such as hydrogen and ammonia, while addressing synthesis, storage, and transportation hurdles. Its detailed content covers the flexibility of coupled gas and electricity networks, operational strategies for achieving net-zero carbon emissions, and intelligent methods for assessing network adaptability. Users will find a conceptual overview of decarbonization efforts for integrated energy systems and discussions on the feasibility of integrating artificial intelligence (AI) in these processes. Further, the book discusses the decoupling of emissions from economic growth, the role of negative emission technologies (NETs), and the application of innovative energy solutions such as gas carbon capture and storage (CCS) and hydrogen production. Case studies illustrate successful implementations of integrated networks worldwide, highlighting challenges and key lessons learned. It not only highlights the urgent need for flexibility in these interconnected systems, particularly through demand-side management and energy storage systems, but also addresses the pressing challenges posed by climate change and the transition away from fossil fuels.- Explores the flexibility mechanisms necessary for the effective integration of gas and electricity networks, focusing on demand response and energy storage solutions that enhance system resilience and grid optimization- Examines operational and optimization strategies aimed at achieving net-zero carbon emissions within integrated gas and electricity networks- Investigates the feasibility and application of artificial intelligence in the decarbonization of integrated energy networks- Discusses the role of negative emission technologies (NETs) in contributing to low-carbon gas and electricity networks- Presents real-world case studies of successful integrated gas and electricity networks, showcasing lessons learned and best practices
Table of Contents
1. Flexibility for the coupled structure of integrated electricity and gas networks2. Understanding flexibility in decarbonizing power systems: Needs, options, and future scenarios3. System-of-Systems Approach to Peer-to-Peer Energy Trading in Integrated Energy Systems4. Investigation and feasibility of artificial intelligence (AI) in decarbonization of integrated gas and electricity network5. Sustainable Multi-Objective Operation of Microgrids: A Flexibility-Driven Approach for Electrical and Thermal Load Management6. Advanced Data-Driven Control for Flexibility and Decarbonization in Integrated Power and Gas Networks7. Role and value of compressor station in facilitating cost-effective energy system decarbonization: A case study8. Applicability of negative emission technologies: Challenges and contributions in low-carbon gas and electricity networks9. Hydrogen electrolyzers as a source of flexibility to power systems10. Net zero energy supply, oxy turbine power cycles, gas carbon capture and hydrogen production technologies11. Coordinated Load Shedding in Integrated Gas and Electricity Networks: Concept, Modeling, Challenges, and Future Directions
