Decarbonization by Electrification in Buildings and Vehicles
Editat de Yuekuan Zhouen Limba Engleză Paperback – oct 2027
- Presents a theoretical and methodological overview to building energy systems and global carbon emissions
- Outlines the latest developments and predicted future advances and applications of decarbonization by electrification in buildings and vehicles
- Provides practical guidance on system and process design that is informed by fundamental requirements of decarbonization pathways using electrification
- Offers insights into renewable markets and carbon mitigation subsidies for researchers and students approaching work in decarbonization
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Specificații
ISBN-13: 9780443342783
ISBN-10: 0443342784
Pagini: 400
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443342784
Pagini: 400
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Cuprins
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