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A comprehensive resource on different aspects of sustainable carbon capture technologies including recent process developments, environmentally friendly methods and roadmaps for implementations. Discusses also the socio-economic and policy aspects of carbon capture and the challenges, opportunities, and incentives for change in industry and policy.
A comprehensive resource on different aspects of sustainable carbon capture technologies including recent process developments, environmentally friendly methods and roadmaps for implementations. Discusses also the socio-economic and policy aspects of carbon capture and the challenges, opportunities, and incentives for change in industry and policy.
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Humbul Suleman is a lecturer in chemical engineering at Teesside University, UK. He is also a member of the Hydrogen Economy and Decarbonisation Technologies group and Centre for Sustainability at the university. He is an active member of the UK Carbon Capture and Storage Research Centre (UKCCSRC) and has delivered invited lectures on carbon capture in many universities. Humbul is also involved in knowledge sharing and professional development activities with the Institution of Chemical Engineers UK (IChemE), Marie-Curie Alumni Association (MCAA), and The Research Council of Oman (TRC). Philip Loldrup Fosbøl is an associate professor in the Centre for Energy Resources Engineering at the Department of Chemical and Biochemical Engineering, Technical University of Denmark, where he currently leads the Carbon Capture and Bioenergy research. He works on industrial funded projects in collaboration with industrial partners in Denmark and in Europe interested in CO2 capture, biogas upgrading, CO2 conversion, and electrochemical gas cleaning applications Rizwan Nasir is an assistant professor in the department of chemical engineering at the University of Jeddah, Saudi Arabia. He is a member of the European Membrane Society (EMS), International Association of Engineers (IAENG), and the Society of Chemical Industry (SCI). He has authored and co-authored thirty-three journal and proceeding papers and three book chapters. He has one filed patent with Intellectual Property Cooperation of Malaysia (MyIPO). Mariam Ameen is a research fellow in the Department of Chemical and Environmental Engineering, School of Engineering, STEM College at RMIT University, City Campus, Australia. She is a member of the World Society of Sustainable Energy Technologies (WSSET), Society of Chemical Industry (SCI), and International Society of Engineering Science and Technology (ISEST). She is involved specifically in thermochemical conversion of biomass to liquid and gaseous fuels in the domain of green technology, energy, and environmental research. She has authored and co-authored journal articles, book chapters, and proceeding papers in peer-reviewed journals.
Inhaltsangabe
Chapter 1 Introduction to sustainable carbon capture Chapter 2 Reactive chemical absorption of co2 by organic molecules Chapter 3 Ionic liquids in carbon capture Chapter 4 Gas hydrates for co2 capture Chapter 5 Sustainable metal-organic framework technologies for co2 capture Chapter 6 Novel co2 separation membranes Chapter 7 Cryogenic co2 capture Chapter 8 Bioenergy and biofuels with carbon capture Chapter 9 Blue/bio-hydrogen and carbon capture Chapter 10 Improvements in process design, simulation, and control Chapter 11 Special case studies in sustainable carbon capture Chapter 12 Modelling the socio-economic impacts of carbon capture and storage deployment - current practices and pathways forward Chapter 13 Emerging technologies for sustainable carbon capture
Chapter 1 Introduction to sustainable carbon capture Chapter 2 Reactive chemical absorption of co2 by organic molecules Chapter 3 Ionic liquids in carbon capture Chapter 4 Gas hydrates for co2 capture Chapter 5 Sustainable metal-organic framework technologies for co2 capture Chapter 6 Novel co2 separation membranes Chapter 7 Cryogenic co2 capture Chapter 8 Bioenergy and biofuels with carbon capture Chapter 9 Blue/bio-hydrogen and carbon capture Chapter 10 Improvements in process design, simulation, and control Chapter 11 Special case studies in sustainable carbon capture Chapter 12 Modelling the socio-economic impacts of carbon capture and storage deployment - current practices and pathways forward Chapter 13 Emerging technologies for sustainable carbon capture
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