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A multiphase lattice Boltzmann study of buoyancy-induced mixing in a tilted channel
K. C. Sahu,
S. P. Vanka
Mechanical Science and Engineering
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Dive into the research topics of 'A multiphase lattice Boltzmann study of buoyancy-induced mixing in a tilted channel'. Together they form a unique fingerprint.
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Keyphrases
Lattice Boltzmann
100%
Buoyancy
100%
Finite Volume Method
66%
Velocity Profile
33%
Reynolds number
33%
Surface Tension
33%
Flow Structure
33%
Interpenetration
33%
Tilt Angle
33%
Immiscible Fluids
33%
Parallelizable
33%
Parameter Comparison
33%
Incompressible Fluid
33%
Ideal Gas Equation
33%
Rayleigh-Taylor Instability
33%
Non-ideal Gas
33%
Stratified Flows
33%
Front Velocity
33%
Tilted Surface
33%
Atwood number
33%
Two-phase Lattice Boltzmann Method
33%
Tension Parameter
33%
Engineering
Boltzmann Equation
100%
Finite Volume Method
100%
Lattice-Boltzmann Method
50%
Velocity Profile
50%
Reynolds' Number
50%
Tension Surface
50%
Flow Structure
50%
Equation of State
50%
Incompressible Fluid
50%
Ideal Gas Equation
50%
Stratified Flow
50%