Engineering
Stokes Number
100%
Solid Suspension
100%
Simple Shear Flow
100%
Computer Simulation
66%
Energy Dissipation
66%
Energy Input
66%
Reynolds' Number
33%
Simulation Result
33%
Finite Time
33%
Moment Method
33%
Rheology
33%
Phase Velocity
33%
Particle Phase
33%
Gas Molecule
33%
Flow Theory
33%
Particle Velocity
33%
Stokes Equation
33%
Mean Free Path
33%
Particle Collision
33%
Mathematics
Energy Dissipation
100%
Asymptotic Theory
50%
Spatial Distribution
50%
Particle Velocity
50%
Stoke Flow
50%
Phase Velocity
50%
Stokes Equation
50%
Granular Flow
50%
Mean Free Path
50%
Molecule Gas
50%
Keyphrases
Dense Gas
100%
Collision Effect
33%
Elastic Collision
33%
Grad Method
33%
Particle Velocity Distribution
33%
Minimum Gap
33%
Inelastic Effects
33%
Shear Energy
33%
Lubrication Approximation
33%
Coefficient of Restitution
33%
Viscous Effects
33%
Material Science
Shear Flow
100%
Volume Fraction
100%
Rheology
100%
Lubrication
100%
Physics
Solid Suspension
100%
Rheology
50%
Flow Theory
50%
Particle Collision
50%
Phase Velocity
50%
Mean Free Path
50%