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Modeling of multicomponent diffusions and natural convection in unfractured and fractured media by discontinuous Galerkin and mixed methods
Hussein Hoteit
*
, Abbas Firoozabadi
*
Corresponding author for this work
Energy Resources and Petroleum Engineering
Research output
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Contribution to journal
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Article
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peer-review
14
Scopus citations
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Dive into the research topics of 'Modeling of multicomponent diffusions and natural convection in unfractured and fractured media by discontinuous Galerkin and mixed methods'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Free Convection
100%
Galerkin Method
100%
Fractured Medium
100%
Hydrocarbon Reservoir
66%
Finite Difference Method
33%
Layered Medium
33%
Homogeneous Medium
33%
Cross Flow
33%
Gridding
33%
Thermal Diffusion
33%
Engineering
Discontinuous Galerkin
100%
Natural Convection
100%
Finite Element Method
75%
Numerical Example
25%
Finite Difference Method
25%
Finite-Difference Approach
25%
Combined Method
25%
Diffusion Flux
25%
Thermal Diffusion
25%
Demonstrates
25%
Physics
Galerkin Method
100%
Free Convection
100%
Finite Difference Methods
33%
Cross Flow
33%
Thermal Diffusion
33%
Chemical Engineering
Natural Convection
100%
Thermal Diffusion
50%
Keyphrases
Fractured Hydrocarbon Reservoir
33%
Upwind Finite Volume Method
33%