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A Lagrangian-Eulerian scheme for flow around an airfoil in rain
J. R. Valentine, R. A. Decker
Civil Engineering, Construction Management, and Environmental Engineering
Research output
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Article
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peer-review
74
Scopus citations
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Keyphrases
Airfoil
100%
Rain
100%
Eulerian-Lagrangian
100%
Flow around
100%
Eulerian Scheme
100%
Steady State
33%
Two Dimensional
33%
Particle Tracking
33%
Raindrop
33%
Lagrangian Particle Tracking
33%
Airfoil Performance
33%
Airfoil Surface
33%
Airfoil Section
33%
Boundary Layer
33%
Incompressible Navier-Stokes
33%
Droplet Distribution
33%
Fluid Droplet
33%
Airflow Field
33%
Body-fitted Coordinate System
33%
Coupling Approach
33%
Spherical Particles
33%
Stall Angle of Attack
33%
Fluid Field Distribution
33%
Engineering
Airfoil
100%
Two Dimensional
50%
Airfoil Section
50%
Tracking Algorithm
50%
Airfoil Surface
50%
Thin Layer
50%
Airflow Field
50%
Stall Angle
50%
Boundary Layer
50%
Fitted Coordinate System
50%
Angle-of-Attack
50%
Fluid State
50%
Spherical Particle
50%
Physics
Airfoil
100%
Steady State
33%
Coordinates
33%
Boundary Layer
33%
Tracking Algorithm
33%
Airfoil Profiles
33%
Flow Distribution
33%
Air Flow
33%
Angle of Attack
33%