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Binary Gas Transport with Multilayer Adsorption in Nanoporous Media
Kawthar A. Babatunde
,
Hamid Emami-Meybodi
John and Willie Leone Department of Energy & Mineral Engineering (EME)
Research output
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Chapter in Book/Report/Conference proceeding
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Dive into the research topics of 'Binary Gas Transport with Multilayer Adsorption in Nanoporous Media'. Together they form a unique fingerprint.
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Keyphrases
Binary Gas
100%
Gas Transport
100%
Multilayer Adsorption
100%
Nanoporous Media
100%
Free Phase
75%
Fluid-solid Interaction
75%
Pore Size
50%
Mass Transport
50%
Mass Flux
50%
Pore Scale
50%
Gas Storage
50%
Strong Adsorption
50%
Adsorption Model
50%
Adsorption Affinity
50%
Monolayer Adsorption
50%
Continuum Scale
50%
Pore Volume
25%
Adsorption
25%
Diffusion Coefficient
25%
Nanopore
25%
Pore Space
25%
Multilayer Model
25%
Multicomponent Adsorption
25%
Knudsen Diffusion
25%
Diffusion-based
25%
Surface Diffusion
25%
Scaling Properties
25%
Capacity Factor
25%
Storage Mechanism
25%
Transport Modeling
25%
Bulk Diffusion
25%
Surface multilayers
25%
Phase Volume Fraction
25%
Viscous Diffusion
25%
Material Science
Solid-Fluid Interaction
100%
Density
66%
Monolayers
66%
Pore Size
66%
Phase Composition
66%
Pore Volume
33%
Volume Fraction
33%
Diffusivity
33%
Nanopore
33%
Surface Diffusion
33%
Engineering
Mass Transport
100%
Solid-Fluid Interaction
60%
Phase Composition
40%
Monolayers
40%
Nanopore
20%
Diffusion Coefficient
20%
Pore Space
20%
Capacity Factor
20%
Phase Density
20%
Chemical Engineering
Mass Transport
100%
Adsorption Model
40%
Monolayer Adsorption
40%
Diffusion
20%
Surface Diffusion
20%
Multicomponent Adsorption
20%