Decarbonization by Electrification in Buildings and Vehicles
Will be published approx. on 1. October 2027
Book
Paperback/Softback
400 pages
978-0-443-34278-3 (ISBN)
Description
Decarbonization by Electrification in Buildings and Vehicles serves as a comprehensive reference and guide on the decarbonization of buildings and electric vehicles, presenting fundamental concepts, cutting-edge technologies, and in-depth problem-solving. The book covers historic energy use and decarbonization strategies, along with strategies from vehicle-to-X to dynamic matching and energy storage and modeling. Other sections provide analysis for a range of systems and essential challenges. Providing a coherent set of guidelines to the decarbonization of these challenging sectors, this book will support upper-level undergraduate and graduate students, researchers, and engineers looking for new ways to make the energy future more sustainable.
More details
Language
English
Place of publication
Philadelphia
United States
Target group
Professional and scholarly
Product notice
Paperback (trade)
Unsewn / adhesive bound
Dimensions
Height: 229 mm
Width: 152 mm
Weight
449 gr
ISBN-13
978-0-443-34278-3 (9780443342783)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Person
Dr. Yuekuan Zhou is an Associate Proffessor at Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, China. His research aims at achieving smart zero-energy and zerocarbon district energy systems for carbon neutrality and climate change mitigation, via cleaner power production, energy-efficient system design and operation, innovation in smart energy integration, multi-objective optimization on nonlinear dynamic behaviours with artificial intelligence. Asst. Prof. Zhou has contributed to numerous publications in peer-reviewed journals. His current research interests include latent thermal storage, electrochemical battery, hydrogen and pumped hydro storages in zero-energy buildings, life-cycle carbon-neutral buildings, peer-to-peer energy trading and inter-city energy migration energy network with a hydrogen economy.
Content
Part I: Fundamentals of Decarbonization in Vehicle and Building Energy Systems
1. Introduction to decarbonization with electrification based on historic changes in energy use patterns
2. Building energy systems and global carbon emissions
3. Energy systems in vehicles and global carbon emissions
Part II: Electrification Strategies
4. Centralised and distributed renewable supply for buildings
5. Clean energy supply with vehicle-to-X opportunities: operation, planning, and scheduling
6. Indirect electrification via electro fuels (e-fuels) for buildings and transport
7. Dynamic matching between renewable energy supply and energy consumption
8. Energy management strategies in integrated building-vehicle systems and case studies
9. Heat pumps and biomass-based systems with energy storage in smart grids
Part III: Modeling and Analysis
10. Performance degradation and model development
11. Impact of electrification on energy consumption and emission life cycle assessment in buildings
12. Carbon intensity in renewable systems
13. Carbon intensity in energy storage systems
14. Lifecycle carbon intensity analysis in integrative energy systems
15. Free trading in renewable markets with carbon mitigation subsidies
Part IV: Guidelines and Challenges for Future Decarbonized Energy Systems
16. Decarbonization guidelines with spontaneous installation of distributed renewable systems
17. Prospects, technical challenges, and upcoming studies on electrified decarbonization for carbon neutrality transition: case studies and future trends
1. Introduction to decarbonization with electrification based on historic changes in energy use patterns
2. Building energy systems and global carbon emissions
3. Energy systems in vehicles and global carbon emissions
Part II: Electrification Strategies
4. Centralised and distributed renewable supply for buildings
5. Clean energy supply with vehicle-to-X opportunities: operation, planning, and scheduling
6. Indirect electrification via electro fuels (e-fuels) for buildings and transport
7. Dynamic matching between renewable energy supply and energy consumption
8. Energy management strategies in integrated building-vehicle systems and case studies
9. Heat pumps and biomass-based systems with energy storage in smart grids
Part III: Modeling and Analysis
10. Performance degradation and model development
11. Impact of electrification on energy consumption and emission life cycle assessment in buildings
12. Carbon intensity in renewable systems
13. Carbon intensity in energy storage systems
14. Lifecycle carbon intensity analysis in integrative energy systems
15. Free trading in renewable markets with carbon mitigation subsidies
Part IV: Guidelines and Challenges for Future Decarbonized Energy Systems
16. Decarbonization guidelines with spontaneous installation of distributed renewable systems
17. Prospects, technical challenges, and upcoming studies on electrified decarbonization for carbon neutrality transition: case studies and future trends