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Stability analysis of dissolution-driven convection in porous media
Hamid Emami-Meybodi
John and Willie Leone Department of Energy & Mineral Engineering (EME)
Research output
:
Contribution to journal
›
Article
›
peer-review
29
Scopus citations
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Dive into the research topics of 'Stability analysis of dissolution-driven convection in porous media'. Together they form a unique fingerprint.
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Mathematics
Dissolution
100%
Convection
71%
Porous Media
70%
Stability Analysis
62%
Anisotropy
49%
Linear Stability Analysis
36%
Hydrodynamics
29%
Boundary Layer
26%
Carbon Dioxide
22%
Direct numerical Simulation
20%
Capillarity
20%
Rayleigh number
19%
Gravitational Field
18%
Chemical Reaction
16%
Nonlinear Dynamics
15%
Finite Difference Method
13%
Unstable
11%
Decay
11%
Prediction
11%
Interaction
10%
First-order
9%
Simulation
9%
Curve
8%
Approximation
7%
Engineering & Materials Science
Dissolution
76%
Convection
71%
Porous materials
71%
Anisotropy
45%
Linear stability analysis
41%
Boundary layers
27%
Hydrodynamics
24%
Capillarity
19%
Aquifers
18%
Finite difference method
14%
Chemical reactions
14%
Carbon dioxide
13%
Fluxes
11%
Physics & Astronomy
dissolving
66%
convection
62%
anisotropy
27%
solutes
26%
boundary layers
25%
aquifers
22%
hydrodynamics
22%
Bond number
20%
quasi-steady states
18%
Rayleigh number
15%
carbon dioxide
14%
direct numerical simulation
14%
gravitational fields
14%
chemical reactions
13%
mechanical properties
9%
decay
8%
curves
7%
predictions
7%
approximation
7%
interactions
5%
simulation
5%
Chemical Compounds
Anisotropy
68%
Hydrodynamics
45%
Rayleigh Number
44%
Solute
39%
Nonlinear Dynamics
37%
Capillarity
33%
Simulation
30%
Wavenumber
25%
Carbon Dioxide
18%
Dissolution
18%
Strength
15%
Time
8%