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A numerical wave tank model for cavitating hydrofoils
S. Bal
*
, S. A. Kinnas
*
Corresponding author for this work
Department of Naval Architecture and Marine Engineering
University of Texas at Austin
Research output
:
Contribution to journal
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Article
›
peer-review
16
Citations (Scopus)
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Keyphrases
Tank Model
100%
Cavitating Hydrofoil
100%
Numerical Wave Tank
100%
Free Surface
80%
Iterative Boundary Element Method
40%
First-order
20%
Potential-based
20%
Sidewall
20%
Numerical Results
20%
Surface Part
20%
Dipole
20%
Hydrofoil
20%
Constant Strength
20%
Perturbation Expansion
20%
Number of Iterations
20%
Lower Order
20%
Source Strength
20%
Iterative Manner
20%
Small Perturbation
20%
Wave Elevation
20%
Free Surface Condition
20%
Panel Method
20%
Second Order Correction
20%
Perturbation Potential
20%
NACA 0012
20%
Engineering
Hydrofoil
100%
Free Surface
83%
Boundary Element Method
33%
Source Strength
33%
Side Wall
16%
Panel Method
16%
Bottom Surface
16%
Perturbation Expansion
16%
Surface Condition
16%
Dipole Strength
16%
Perturbation Potential
16%