Carbon dioxide (CO2) capture and conversion to value added products, such as chemicals, polymers, and carbon-based fuels represents a promising approach to transform a potential threat to the environment into a value-added product for long term sustainability. Emerging Carbon Capture Technologies: Towards a Sustainable Future provides a multidisciplinary view of the research that is being carried out in this field, covering materials and processes for CO2 capture and utilization and including a broad discussion of the impact of novel technologies in carbon capture on the energy landscape,…mehr
Carbon dioxide (CO2) capture and conversion to value added products, such as chemicals, polymers, and carbon-based fuels represents a promising approach to transform a potential threat to the environment into a value-added product for long term sustainability. Emerging Carbon Capture Technologies: Towards a Sustainable Future provides a multidisciplinary view of the research that is being carried out in this field, covering materials and processes for CO2 capture and utilization and including a broad discussion of the impact of novel technologies in carbon capture on the energy landscape, society and climate.
Of interest to students, researchers and professionals in industries related to greenhouse gas mitigation, post-combustion CO2 capture processes, coal-fired power plants, environmental sustainability, green solvents, green technologies, and the utilization of clean energy for environmental protection, this book covers both the experimental and theoretical aspects of novel materials and process development providing a holistic approach toward a sustainable energy future.
Dr. Mohammad Khalid is a Research Professor and Head of Graphene and Advanced 2D Materials Research Group at Sunway University, Malaysia. His research interests lie in the area of advanced nanomaterial synthesis, heat transfer fluids, energy harvesting, and storage. He is among the top 2% of scientists in the world, with over 200 research articles published in peer-reviewed international journals. He has supervised more than 30 postgraduate students and has over 15 years of research and teaching experience. He is also a Fellow of the Higher Education Academy (FHEA), UK.
Dr. Swapnil Dharaskar is an Associate Professor & Head of the Chemical Engineering Department, School of Technology at Pandit Deendayal Energy University, Gandhinagar, Gujarat. His research interests are CO2 separations, Deep Eutectic Solvents/Ionic Liquids, Desulfurization Process, and Nanotechnology. He is the principal investigator of a CO2 separation project funded by the Department of Science and Technology, India, as part of the Mission-Innovation carbon capture scheme. He has supervised 6 PhDs and 20 MTech students and has published over 50 research papers in international journals. He is a member of various professional organisations, including IIChE, AIChE, ACS, IWA, IEI, ISTE, IAENG, ISRD, IAN, etc. He also serves on the Editorial Boards of several prestigious international journals.
Inhaltsangabe
1. Introduction to Carbon Capture 2. Absorption 3. Chemical looping combustion 4. Membrane for CO2 Separation 5. Hydrate based Separation 6. CO2 Capture via Cryogenic distillation 7. Biological Processes for CO2 Capture 8. CO2 Transportation: Safety Regulations and Energy Requirement 9. Techno-Economic analysis and optimisation model for CO2 capture process 10. Modelling and molecular Simulation methods for CO2 capture 11. Decarbonisation: regulation and policies
1. Introduction to Carbon Capture 2. Absorption 3. Chemical looping combustion 4. Membrane for CO2 Separation 5. Hydrate based Separation 6. CO2 Capture via Cryogenic distillation 7. Biological Processes for CO2 Capture 8. CO2 Transportation: Safety Regulations and Energy Requirement 9. Techno-Economic analysis and optimisation model for CO2 capture process 10. Modelling and molecular Simulation methods for CO2 capture 11. Decarbonisation: regulation and policies
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