Decarbonization Strategies and Drivers to Achieve Carbon Neutrality for Sustainability

著者名：Vara Prasad, Majeti Narasimha (EDT)/Erickson, Larry (EDT)/Nunes PhD, Fabio Carvalho (EDT)/Ramadan M.Sc, Ph.D, Bimastyaji Surya (EDT)

Elsevier（2024/03/07発売）

• 言語：ENG
• ISBN：9780443136078
• eISBN：9780443136085

Description

Decarbonization Strategies and Drivers to Achieve Carbon Neutrality for Sustainability emphasizes the significance of various decarbonization strategies. It is expected to solve some of the problems centered around decarbonization and available technologies and to diversify renewable energy supply in different sectors contributing to energy security.The book covers contribution of bioenergy to decarbonization, non-fossil energy targets, role of wind energy, hydrogen energy, potential of geothermal energy, nuclear energy, wind to energy, role of electrification and carbon capture, utilization and storage (CCUS) technologies are covered in this work. Decarbonization Strategies and Drivers to Achieve Carbon Neutrality for Sustainability aims to explain how reducing petroleum consumption and supplementing alternate sources of renewable fuels is vital and would strengthen decarbonization.- Provides strategies for the implementation of decarbonization- Explores the possibilities for reducing the emission of greenhouse gases- Suggests actions and possible solutions to counteract climate change and its consequences

Table of Contents

Section a) Strategies for Decarbonization1. The contribution of Bioenergy to the decarbonization2. Non-fossil energy targets for environmental sustainability3. Role of Wind energy to the decarbonization4. Hydrogen and Ammonia Energy for Decarbonization5. Potential of Geothermal energy for decarbonization6. Nuclear energy and its role in decarbonization7. Si-based agrochemicals for mitigation of greenhouse gases8. Reducing arable green-house gas emission for sustainabilitySection b) Role of Electrification in the Decarbonization9. Electric vehicles for environmental sustainability10. Internet of things [IoT] for charging of Electrical VehiclesSection c) Carbon capture, utilization and storage (CCUS) technologies11. Carbon Dioxide Capture Technologies for the Conventional Energy Sector12. Biological carbon sequestration for environmental sustainability13. Policy Planning and Implementation for Carbon Capture Technologies14. E-fuels: Pathway Towards Cleaner Future15. CO2 Sequestration for Conventional Utilization and Industrial ApplicationSection d) Waste to Energy16. The Significant Role of Waste to Energy on Decarbonisation17. Green energy from waste to promote decarbonization18. Involvement of The Informal Plastic Recycler in Reducing Carbon EmissionSection e) Case studies of Successful Energy Transition19. Successful Energy Transition – Case study in Indonesia20. Harnessing landfill gas (LFG) for electricity: A strategy to mitigate greenhouse gas (GHG) emissions in Jakarta (Indonesia)21. Production of bioenergy from industrial crops for Decarbonization of environment22. Agronomic management strategies for storing soil carbon and reducing greenhouse gas emission in the Mediterranean region23. Agroforestry: a promising approach to reducing green-house gas emission24. Nanomaterials and Novel Solvents for Carbon Capture Technologies25. Landfill Gas as a source of energy to promote decarbonization26. Waste to promote decarbonization27. Decarbonizing Iron and Steel Sector in India