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Simulation of dripping flow using Dissipative Particle Dynamics
Sorush Khajepor
, Meysam Joulaian
, Ahmadreza Pishevar
, Yaser Afshar
Research output
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Mathematics
Concludes
100%
Wide Range
100%
Length Scale
100%
Good Agreement
100%
Free Surface
100%
Fluid Density
100%
Boundary Condition
100%
Keyphrases
Dissipative Particle Dynamics
100%
Dripping Flow
100%
Nozzle
42%
Free Surface
14%
Thermal Fluctuations
14%
Simulation Approach
14%
Fluid Density
14%
Breakup Time
14%
Near-wall
14%
Dynamic Fluid
14%
Surface Fluids
14%
Wall Boundary Condition
14%
Density Oscillations
14%
Mesoscopic Simulation
14%
Fluid Slip
14%
Thermal Length
14%
Physics
Nanoscale
100%
Boundary Condition
100%
Dynamic Fluid
100%
Engineering
Dissipative particle dynamics
100%
Good Agreement
14%
Length Scale
14%
Free Surface
14%
Thermal Fluctuation
14%
Fluid Density
14%
Penetrability
14%
Nanoscale
14%
Boundary Condition
14%
Dynamic Fluid
14%
Material Science
Dissipative Particle Dynamics
100%
Surface (Surface Science)
42%
Density
14%
Dynamic Fluid
14%