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Euler solutions for airfoils in inhomogeneous atmospheric flows
Caroline Weishäupl,
Boris Laschka
Chair of Aerodynamics and Fluid mechanics
Technical University of Munich
Research output
:
Contribution to conference
›
Paper
›
peer-review
3
Scopus citations
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Dive into the research topics of 'Euler solutions for airfoils in inhomogeneous atmospheric flows'. Together they form a unique fingerprint.
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Keyphrases
Airfoil
100%
Atmospheric Flows
100%
Euler Solutions
100%
Flow Field
20%
Flow Variables
20%
Inhomogeneous Flow
20%
Jet Stream
20%
Leonhard Euler
20%
Lift Coefficient
20%
Linear Velocity
20%
Longitudinal Stability
20%
Low-level Jet Stream
20%
Microburst
100%
Moment Coefficient
20%
NACA0012 Airfoil
20%
Numerical Simulation
20%
Parameter Study
20%
Pitching Moment
40%
Potential Model
20%
Rapid Change
20%
Shock Location
20%
Shock Strength
20%
Spatial Gradient
20%
Transonic Regime
20%
Velocity Change
20%
Velocity Components
20%
Velocity Vector
20%
Vertical Velocity Component
20%
Vortex Ring
40%
Wind Shear
60%
Wing Profile
20%
Engineering
Airfoil
100%
Atmospheric Flow
100%
Euler Solution
100%
Flow Variable
20%
Induced Velocity Component
20%
Lift Coefficient
20%
Linear Velocity
20%
Longitudinal Stability
20%
Microburst
100%
Moment Coefficient
20%
Pitch Moment
40%
Rapid Change
20%
Shock Strength
20%
Subsonic Case
20%
Velocity Component
20%
Velocity Vector
20%
Vortex
40%
Wind Shear
60%