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Aerodynamic Noise Reduction with Porous Materials: Aeroacoustics Investigations and Applications
C. Teruna
Flow Physics and Technology
Aerospace Engineering
Wind Energy
Research output
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Thesis
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Dissertation (TU Delft)
366
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Dive into the research topics of 'Aerodynamic Noise Reduction with Porous Materials: Aeroacoustics Investigations and Applications'. Together they form a unique fingerprint.
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Engineering
Mechanisms
100%
Turbulence
100%
Aerodynamic Noise
100%
Reduction
100%
Flow Field
66%
Lattice-Boltzmann Method
33%
Turbulent Boundary Layer
33%
Rotors
33%
Characteristics
33%
Aviation
33%
Installation
33%
Acoustics
33%
Stages
33%
Boundary Layer
33%
Aircraft Engine
33%
Wind Power
33%
Broadband Noise
33%
Aerodynamics
33%
INIS
applications
100%
reduction
100%
porous materials
100%
noise
100%
aerodynamics
100%
investigations
100%
turbulence
37%
boundary layers
25%
wind turbines
25%
emission
12%
increasing
12%
installation
12%
energy
12%
demand
12%
fans
12%
interactions
12%
rotors
12%
acoustics
12%
permeability
12%
wind
12%
aircraft
12%
solutions
12%
engines
12%