Gas Capture Processes

Edited by
July 2020
440 pages
  • ISBN978-3-03928-780-2 (Hardback)
  • ISBN978-3-03928-781-9 (PDF)

This book is a reprint of the Special Issue Gas Capture Processes that was published in

Biology & Life Sciences
Chemistry & Materials Science
Computer Science & Mathematics
Environmental & Earth Sciences
This book introduces the recent technologies introduced for gases capture including CO2, CO, SO2, H2S, NOx, and H2. Various processes and theories for gas capture and removal are presented. The book provides a useful source of information for engineers and specialists, as well as for undergraduate and postgraduate students in the fields of environmental and chemical science and engineering.
  • Hardback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
in situ gasification chemical looping combustion; high-flux circulating fluidized bed; counter-flow moving bed; gas leakage; coupling mechanism; carbon capture and utilization; biogas upgrading; calcium carbonate precipitation; chemical absorption; gas pressure; gas content; gas basic parameters; rapid estimation technology; supercritical water oxidation; high-pressure separation; oxygen recovery; energy recovery; economic analysis; coal-direct chemical looping combustion; coupling mechanism; theoretical methodology; high-flux; gas leakage; pressure gradient; gas mole fraction; activity; UNIFAC; phase equilibrium; threshold value; CO2 capture; calcium looping; chemical sorption; anti-attrition; pore-former particle size; Reaction; kinetics; carbon dioxide; N-methyldiethanolamine; L-Arginine; stopped flow technique; carbon capture; CO2 sequestration; steel-making waste; steel slag; H2S absorption; amine solutions; glycols; desulfurization; aqueous and non-aqueous solutions; gas diffusion; gas pressure; unipore diffusion model; bidisperse diffusion model; dispersive diffusion model; refinery plants; industrial gas streams; petrochemical processes; waste gases; activated carbons; catalytic activation; physicochemical structure; SO2 adsorption; optimal conceptual design; market prediction; economic uncertainty; environmental impact; carbon dioxide separation; CO2 capture; Aspen Plus; CCGT; Taguchi; Minitab; optimization; 2-Amino-2-Methyl-1-Propanol; modelling and Simulation; post-combustion capture; exergy analysis; flowsheeting configurations; nanofluids; absorption intensification; mass transfer coefficient; bubble column; global warming; chemical absorption; membrane contactor; removal of NO2 and CO2; coke oven; carbonaceous deposits; spectral analysis; mechanism; arsenene; doping; first principles study; gas adsorption; two-dimensional; waste polyurethane foam; physical activation; high selectivity; CO2 capture; ultra-micropore; activated carbons; physical activation; mechanical activation; physicochemical structure; SO2 adsorption; CO2 capture; iron ore; carbonation; calcination; recyclability; mechanochemical reactions; carbonation kinetics; MXene; gas separation; Knudsen diffusion; molecular sieving; transport mechanism; spiral nozzle; gas absorption; spray atomization; droplet size; droplet velocity; global warming; gas emission; capture; CO2

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