TY  - GEN
AU  - Zhang,Zhien
AU  - Borhani,Tohid
AU  - El-Naas,Muftah
AU  - Soltani,Salman
AU  - Yan,Yunfei
AU  - Zhang,Zhien
AU  - Borhani,Tohid
AU  - El-Naas,Muftah
AU  - Soltani,Salman
AU  - Yan,Yunfei
TI  - Gas Capture Processes
SN  - books978-3-03928-781-9
PY  - 2020///
CY  - Basel, Switzerland
PB  - MDPI - Multidisciplinary Digital Publishing Institute
KW  - History of engineering & technology
KW  - bicssc
KW  - in situ gasification chemical looping combustion
KW  - high-flux circulating fluidized bed
KW  - counter-flow moving bed
KW  - gas leakage
KW  - coupling mechanism
KW  - carbon capture and utilization
KW  - biogas upgrading
KW  - calcium carbonate precipitation
KW  - chemical absorption
KW  - gas pressure
KW  - gas content
KW  - gas basic parameters
KW  - rapid estimation technology
KW  - supercritical water oxidation
KW  - high-pressure separation
KW  - oxygen recovery
KW  - energy recovery
KW  - economic analysis
KW  - coal-direct chemical looping combustion
KW  - theoretical methodology
KW  - high-flux
KW  - pressure gradient
KW  - gas mole fraction
KW  - activity
KW  - UNIFAC
KW  - phase equilibrium
KW  - threshold value
KW  - CO2 capture
KW  - calcium looping
KW  - chemical sorption
KW  - anti-attrition
KW  - pore-former particle size
KW  - Reaction
KW  - kinetics
KW  - carbon dioxide
KW  - N-methyldiethanolamine
KW  - L-Arginine
KW  - stopped flow technique
KW  - carbon capture
KW  - CO2 sequestration
KW  - steel-making waste
KW  - steel slag
KW  - H2S absorption
KW  - amine solutions
KW  - glycols
KW  - desulfurization
KW  - aqueous and non-aqueous solutions
KW  - gas diffusion
KW  - unipore diffusion model
KW  - bidisperse diffusion model
KW  - dispersive diffusion model
KW  - refinery plants
KW  - industrial gas streams
KW  - petrochemical processes
KW  - waste gases
KW  - activated carbons
KW  - catalytic activation
KW  - physicochemical structure
KW  - SO2 adsorption
KW  - optimal conceptual design
KW  - market prediction
KW  - economic uncertainty
KW  - environmental impact
KW  - carbon dioxide separation
KW  - Aspen Plus
KW  - CCGT
KW  - Taguchi
KW  - Minitab
KW  - optimization
KW  - 2-Amino-2-Methyl-1-Propanol
KW  - modelling and Simulation
KW  - post-combustion capture
KW  - exergy analysis
KW  - flowsheeting configurations
KW  - nanofluids
KW  - absorption intensification
KW  - mass transfer coefficient
KW  - bubble column
KW  - global warming
KW  - membrane contactor
KW  - removal of NO2 and CO2
KW  - coke oven
KW  - carbonaceous deposits
KW  - spectral analysis
KW  - mechanism
KW  - arsenene
KW  - doping
KW  - first principles study
KW  - gas adsorption
KW  - two-dimensional
KW  - waste polyurethane foam
KW  - physical activation
KW  - high selectivity
KW  - ultra-micropore
KW  - mechanical activation
KW  - iron ore
KW  - carbonation
KW  - calcination
KW  - recyclability
KW  - mechanochemical reactions
KW  - carbonation kinetics
KW  - MXene
KW  - gas separation
KW  - Knudsen diffusion
KW  - molecular sieving
KW  - transport mechanism
KW  - spiral nozzle
KW  - gas absorption
KW  - spray atomization
KW  - droplet size
KW  - droplet velocity
KW  - gas emission
KW  - capture
KW  - CO2
N1  - Open Access
N2  - 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
UR  - https://mdpi.com/books/pdfview/book/2601
UR  - https://directory.doabooks.org/handle/20.500.12854/68835
ER  -