Book ; Online: Gas Capture Processes
2020
Keywords | History of engineering & technology ; 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 ; theoretical methodology ; high-flux ; 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 ; 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 ; 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 ; 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 ; ultra-micropore ; mechanical activation ; 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 ; gas emission ; capture ; CO2 |
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Size | 1 electronic resource (440 pages) |
Publisher | MDPI - Multidisciplinary Digital Publishing Institute |
Publishing place | Basel, Switzerland |
Document type | Book ; Online |
Note | English ; Open Access |
HBZ-ID | HT021044598 |
ISBN | 9783039287819 ; 3039287818 |
Database | ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture |
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