INIS
aerodynamics
75%
air
100%
applications
100%
aspect ratio
50%
comparative evaluations
25%
computational fluid dynamics
50%
coupling
50%
deformation
50%
design
25%
drag
25%
dynamics
25%
energy
100%
finite element method
75%
geometry
25%
increasing
25%
inflation
25%
kites
50%
libraries
25%
lifts
25%
membranes
25%
navier-stokes equations
25%
performance
75%
relaxation
25%
reynolds number
25%
shape
25%
simulation
25%
steady-state conditions
100%
tools
25%
tubes
25%
turbulence
25%
wind
100%
Engineering
Aerodynamic Performance
25%
Aerodynamics
12%
Aeroelasticity
100%
Airborne Wind Energy
100%
Aspect Ratio
12%
Camber
12%
Computational Fluid Dynamics
25%
Couplings
25%
Design
12%
Energy Application
100%
Finite Element Mesh
12%
Finite Element Method
12%
Finite Element Modeling
12%
Inflatables
25%
Lift Force
12%
Models
25%
Reynolds-Averaged Navier-Stokes
12%
Turbulence
12%
Wings
100%