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Prediction of cavitating flow noise by direct numerical simulation
Jung H. Seo
,
Young J. Moon
*
, Byeong Rog Shin
*
Corresponding author for this work
Research output
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Contribution to journal
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Article
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peer-review
63
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Engineering
Direct Simulation
100%
Cavitation Number
100%
Direct Numerical Simulation
100%
Filtration
50%
Reynolds' Number
50%
Numerical Methods
50%
Circular Cylinder
50%
Sixth Order
50%
Classical Theory
50%
Phase Fluid
50%
Benchmark Problem
50%
Central Scheme
50%
Compressible Navier
50%
Cylinder Flow
50%
Noise Field
50%
Bubbly Flow
50%
Numerical Analysis
50%
Navier-Stokes Equation
50%
Equilibrium Model
50%
Equations of State
50%
Keyphrases
Direct numerical Simulation
100%
Flow Noise
100%
Cavitating Flow
100%
Acoustic Analogy
40%
Direct Simulation
40%
Cavitation number
40%
Reynolds number
20%
Spatial Filtering
20%
Numerical Methods
20%
Further Analysis
20%
Acoustics
20%
Simulation Analysis
20%
Decay Rate
20%
Convection
20%
Flow Characteristics
20%
Noise Characteristics
20%
Central Schemes
20%
Equation of State
20%
Classical Theory
20%
Cylinder Radius
20%
Sixth Order
20%
Simulation Procedure
20%
Benchmark Problems
20%
Density-based
20%
Shock Waves
20%
Nonlinear Waves
20%
Linear Wave
20%
Rayleigh-Plesset Equation
20%
Cavitation Noise
20%
Cavitation Model
20%
Far-field Noise
20%
Compressible Navier-Stokes Equations
20%
Two-phase Fluid
20%
Cloud Cavitation
20%
Homogeneous Equilibrium Model
20%
Circular Cylinder Flow
20%
Bubbly Flow
20%
Analogy-making
20%
Physics
Numerical Analysis
33%