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Numerical optimization techniques for practical problems in Aerodynamics
Z. Belligoli
Aerodynamics
Research output
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Thesis
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Dissertation (TU Delft)
118
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Dive into the research topics of 'Numerical optimization techniques for practical problems in Aerodynamics'. Together they form a unique fingerprint.
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Engineering
Practical Problem
100%
Error
100%
Numerical Optimization
100%
Aerodynamics
100%
Aerodynamic Shape Optimization
75%
Aircraft
75%
Aviation
75%
Codes
75%
Flow Field
50%
Experiments
50%
Flow Phenomenon
50%
Fuselage
50%
Tunnels
50%
Optimization
25%
Reynolds-Averaged Navier-Stokes
25%
Models
25%
Short Time
25%
Risk Averse
25%
Development Process
25%
Innovation
25%
Demonstrates
25%
Design Development
25%
Angle-of-Attack
25%
Turbulence
25%
Reynolds Stress
25%
Optimised Design
25%
Pressure Force
25%
Computer Simulation
25%
Mach Number
25%
Wings
25%
Fluid Viscosity
25%
Aerodynamic Design
25%
Total Drag
25%
Greenhouse Gas
25%
INIS
optimization
100%
aerodynamics
100%
shape
83%
errors
66%
design
50%
dynamics
50%
assimilation
50%
data
50%
drag
50%
corrections
50%
emission
33%
wind tunnels
33%
reynolds number
33%
aircraft
33%
carbon footprint
16%
navier-stokes equations
16%
airplanes
16%
risks
16%
turbulence
16%
acceleration
16%
regulations
16%
junctions
16%
aerospace industry
16%
tensors
16%
simulation
16%
greenhouse gases
16%
mach number
16%
viscosity
16%
pollution
16%
walls
16%
interference
16%
solutions
16%
experimental data
16%