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Gas Capture Processes
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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.
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Keywords
- 2-Amino-2-Methyl-1-Propanol
- absorption intensification
- activated carbons
- activity
- amine solutions
- anti-attrition
- aqueous and non-aqueous solutions
- arsenene
- Aspen Plus
- bidisperse diffusion model
- biogas upgrading
- bubble column
- calcination
- calcium carbonate precipitation
- calcium looping
- Capture
- Carbon Capture
- carbon capture and utilization
- Carbon Dioxide
- carbon dioxide separation
- carbonaceous deposits
- carbonation
- carbonation kinetics
- catalytic activation
- CCGT
- chemical absorption
- chemical sorption
- CO2
- CO2 capture
- CO2 sequestration
- coal-direct chemical looping combustion
- coke oven
- counter-flow moving bed
- coupling mechanism
- desulfurization
- dispersive diffusion model
- doping
- droplet size
- droplet velocity
- Economic Analysis
- economic uncertainty
- energy recovery
- Environmental impact
- exergy analysis
- first principles study
- flowsheeting configurations
- gas absorption
- gas adsorption
- gas basic parameters
- gas content
- gas diffusion
- gas emission
- gas leakage
- gas mole fraction
- gas pressure
- gas separation
- Global warming
- glycols
- H2S absorption
- high selectivity
- high-flux
- high-flux circulating fluidized bed
- high-pressure separation
- History of engineering & technology
- in situ gasification chemical looping combustion
- industrial gas streams
- iron ore
- kinetics
- Knudsen diffusion
- l-arginine
- market prediction
- mass transfer coefficient
- mechanical activation
- Mechanism
- mechanochemical reactions
- membrane contactor
- Minitab
- Modelling and simulation
- molecular sieving
- MXene
- N-methyldiethanolamine
- nanofluids
- optimal conceptual design
- optimization
- oxygen recovery
- petrochemical processes
- phase equilibrium
- physical activation
- physicochemical structure
- pore-former particle size
- post-combustion capture
- pressure gradient
- rapid estimation technology
- reaction
- recyclability
- refinery plants
- removal of NO2 and CO2
- SO2 adsorption
- spectral analysis
- spiral nozzle
- spray atomization
- steel slag
- steel-making waste
- stopped flow technique
- supercritical water oxidation
- Taguchi
- Technology, engineering, agriculture
- Technology: general issues
- theoretical methodology
- threshold value
- transport mechanism
- two-dimensional
- ultra-micropore
- UNIFAC
- unipore diffusion model
- waste gases
- waste polyurethane foam
Links
DOI: 10.3390/books978-3-03928-781-9Editions