Andreas Babucke scite author profile

Two-dimensional direct numerical simulations and linear stability theory investigations have been carried out for a compression ramp at Maϭ4.8 and compared to earlier results of a laminar boundary layer with impinging shock wave. The inflow parameters in both flows were identical; the ramp angle of the compression corner was chosen to cause a separation bubble, which has exactly the same length compared to the case with impinging shock. It turned out, that the two cases are almost identical for the base flow properties. This is in accordance with similarity assumptions, e.g., free interaction theory, which for smaller Reynolds numbers states, that the boundary layer should be independent of the sort of shock-boundary layer interaction. However, linear stability theory results differ near the corner and the impinging shock, respectively. Direct numerical simulations of small-amplitude disturbances, which were introduced into the laminar boundary layer, also behave in a very similar way. Amplitude distributions exhibit the same characteristics. The according distributions of the ramp flow have slightly larger amplitudes than the case with impinging shock.

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Direct Numerical Simulation of Shear Flow Phenomena on Parallel Vector Computers

Babucke

Linn

Kloker

et al.

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Numerical Investigation of Flow-Induced Noise Generation at the Nozzle End of Jet Engines

Babucke

Kloker

Rist

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Direct Numerical Simulation of the Mixing Layer past Serrated Nozzle Ends

Babucke

Kloker

Rist

2009

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Andreas Babucke

DNS of a plane mixing layer for the investigation of sound generation mechanisms

Two-dimensional numerical investigations of small-amplitude disturbances in a boundary layer at Ma=4.8: Compression corner versus impinging shock wave

Direct Numerical Simulation of Shear Flow Phenomena on Parallel Vector Computers

Numerical Investigation of Flow-Induced Noise Generation at the Nozzle End of Jet Engines

Direct Numerical Simulation of the Mixing Layer past Serrated Nozzle Ends

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