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Cell model of in-cloud scavenging of highly soluble gases
Alexander Baklanov
*
, Tov Elperin, Andrew Fominykh, Boris Krasovitov
*
Corresponding author for this work
7
Citations (Scopus)
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Dive into the research topics of 'Cell model of in-cloud scavenging of highly soluble gases'. Together they form a unique fingerprint.
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Keyphrases
Cloud Droplets
100%
Highly Soluble
100%
Nitric Acid
100%
Hydrogen Peroxide
66%
Trace Gases
33%
Gaseous Phase
33%
Monte Carlo Method
16%
Periodic Structures
16%
Periodic Boundary Conditions
16%
Gas Absorption
16%
Spatial Dependence
16%
Equilibrium Value
16%
Mass Transfer
16%
Thermophysical Properties
16%
Cell Boundary
16%
Comparable Worth
16%
Temporal Dependence
16%
Analytical Expression
16%
Liquid Phase
16%
Cellular Models
16%
Diffusional Interactions
16%
Dissolved Gas
16%
Earth and Planetary Sciences
Cloud Droplet
100%
Scavenging
100%
Hydrogen Peroxide
83%
Trace Gas
50%
Henry Law
16%
Liquid Phase
16%
Boundary Condition
16%
Dissolved Gas
16%
Spatial Dependency
16%
Gas Absorption
16%
Engineering
Scavenging
100%
Cloud Droplet
100%
Cell Model
100%
Gaseous Phase
33%
Boundary Condition
16%
Periodic Boundary
16%
Boundary Cell
16%
Cellular Model
16%
Final Stage
16%
Liquid Phase
16%
Biochemistry, Genetics and Molecular Biology
Hydrogen Peroxide
100%
Absorption
80%
Facilitated Diffusion
20%
Boundary Cell
20%
Material Science
Thermophysical Property
20%
Chemical Engineering
Gas Absorption
16%