A Numerical Study on Aircraft Noise Mitigation Using Porous Stator Concepts

Abstract: This manuscript presents the application of a recently developed noise reduction technology, constituted by poro-serrated stator blades on a full-scale aircraft model, in order to reduce rotor-stator interaction noise in the fan stage. This study was carried out using the commercial lattice Boltzmann solver 3DS-SIMULIA PowerFLOW. The simulation combines the airframe of the NASA High-Lift Common Research Model with an upscaled fan stage of the source diagnostic test rig. The poro-serrations on the stator blades… Show more

“…However, the numerical setup and results needs to be validated through the use of experimental results. More than often, the main focus of numerical and analytical studies of turbulence-interaction noise has been noise abatement techniques [27][28][29][30][31][32][33][34]. These studies have improved our understanding of turbulence interaction and have further identified both turbulence intensity and the turbulence integral length scale as key parameters to accurately capture the turbulence-interaction process.…”

Numerical Simulation of Grid-Generated Turbulence Interaction with a NACA0012 Airfoil

“…However, the numerical setup and results needs to be validated through the use of experimental results. More than often, the main focus of numerical and analytical studies of turbulence-interaction noise has been noise abatement techniques [27][28][29][30][31][32][33][34]. These studies have improved our understanding of turbulence interaction and have further identified both turbulence intensity and the turbulence integral length scale as key parameters to accurately capture the turbulence-interaction process.…”

Numerical Simulation of Grid-Generated Turbulence Interaction with a NACA0012 Airfoil

Powered turbofan effects on aircraft aerodynamics at high-lift: A study on the NASA CRM-HL

Numerical analysis of novel wavy wall based control of turbulent boundary layer separation