Vlad Ciobaca scite author profile

This paper describes the influence of grid resolution and turbulence modeling for a 3D transport aircraft in high lift configuration with massive flap separation. The flap is equipped with spanwise slotted active flow control (AFC) devices to allow studies on active separation control. The effects of constant slotted blowing on the high lift performance are highlighted. Oil flow pictures from a mid-scale experiment in the low speed wind tunnel of Airbus in Bremen (B-LSWT) serve as a validation database for the baseline CFD results. RANS calculations are carried out with and without constant blowing boundary conditions. The baseline flow is also investigated with a time-accurate URANS approach. One of the major outcomes of the AFC study is the demonstration of the feasibility to simulate AFC concepts on a 3D configuration. Constant blowing shows the beneficial effect that separation can largely be suppressed because of the energy added to the flow on the suction side of the flap. This study serves as a preceding validation for the subsequent pulsed blowing approach treated in Part 2.

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Separation Control on a High-Lift Airfoil using Vortex Generator Jets at High Reynolds numbers

Casper

Scholz

Radespiel

et al. 2011

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Vlad Ciobaca

LAGOON: Further Analysis of Aerodynamic Experiments and Early Aeroacoustics Results

Numerical Studies of Active Flow Control Applied at the Engine-Wing Junction

RANS Simulation and Experiments on the Stall Behaviour of an Airfoil with Laminar Separation Bubbles

Active Flow-Separation Control on a High-Lift Wing-Body Configuration

Separation Control on a High-Lift Airfoil using Vortex Generator Jets at High Reynolds numbers

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