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Granular flow from a silo: Discrete-particle simulations in three dimensions
D. Hirshfeld, D. C. Rapaport
Department of Physics
Bar-Ilan University
Research output
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Contribution to journal
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Article
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peer-review
72
Scopus citations
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Keyphrases
Circular Hole
100%
Discharge Rate
100%
Molecular Dynamics Method
100%
Repulsive Interaction
100%
Aperture Size
100%
Granular Materials
100%
Granular Flow
100%
Steady-state Conditions
100%
Flow Velocity
100%
Flow Measurement
100%
Damping Force
100%
Discrete Particle Model
100%
Continuous Feed
100%
Kinetic Pressure
100%
Frictional Damping
100%
Granular Dynamics Method
100%
Pressure Distribution
100%
Cylindrical Container
100%
Kinetic Energy Distribution
100%
Gravity Flow
100%
Flow Discharge
100%
Velocity Rate
100%
Engineering
Discharge Rate
100%
Repulsive Interaction
100%
Circular Hole
100%
State Condition
100%
Damping Force
100%
Flow Measurement
100%
Driven Flow
100%
Pressure Distribution
100%
Energy Distribution
100%
Dynamic Method
100%
Flow Velocity
100%
Chemical Engineering
Flow Measurement
100%