Add to ORKGThe acoustics of simple engine over-the-wing configurations, with complete and partially attached jet flow to the shielding surface were studied with scale models. The nozzle used consisted of a 5:1 slot nozzle operated at a nominal jet Mach number of 0.6, with the flow directed parallel to and at angles up to 10 deg toward the shielding surface. The flow field at the trailing edge of each nozzle/surface configuration was mapped. the results indicate that, with attached flow, the jet flow field is stretched in the flow direction resulting in locally higher velocities than those for partially attached flow or nozzle only flow. The stretching of the flow field increases the noise levels for the attached flow cases compared to those with only ...
Experimental noise data for a nozzle exhaust system incorporating a thermal acoustic shield (TAS) ar...
Typical installed separate-flow exhaust nozzle system. The jet noise from modern turbofan engines is...
Aircraft noise mitigation is an ongoing challenge for the aeronautics research community. In respons...
The noise caused by the interaction of the jet exhaust and a wing was measured under static conditio...
The correspondence of far field acoustic trends with changes in the characteristics of the flow fiel...
Acoustic data obtained from a model-scale study with 5:1 slot nozzles are analyzed and correlated in...
Jet exhaust noise shielding data are presented for cold and hot flows (ambient to 1,100 K) and press...
Small-model experiments were conducted of the engine-over-the-wing concept using a D-shaped nozzle i...
The results of preliminary acoustic tests of the engine over the wing concept are summarized. The te...
Acoustic shielding benefits for CTOL over-the-wing (OTW) applications were obtained experimentally w...
Acoustic spectral data obtained from a model-scale study of several over the wing (OTW) configuratio...
Jet noise shielding benefits for CTOL engine-over-the-wing installations were obtained with various ...
We present parametric subscale experimental studies of jet noise shielding in two basic configuratio...
Future STOL aircraft may utilize engine-over-the-wing installations in which the exhaust nozzles are...
On the basis of static aero/acoustic data obtained at model scale, the effect of exhaust nozzle size...
Experimental noise data for a nozzle exhaust system incorporating a thermal acoustic shield (TAS) ar...
Typical installed separate-flow exhaust nozzle system. The jet noise from modern turbofan engines is...
Aircraft noise mitigation is an ongoing challenge for the aeronautics research community. In respons...
The noise caused by the interaction of the jet exhaust and a wing was measured under static conditio...
The correspondence of far field acoustic trends with changes in the characteristics of the flow fiel...
Acoustic data obtained from a model-scale study with 5:1 slot nozzles are analyzed and correlated in...
Jet exhaust noise shielding data are presented for cold and hot flows (ambient to 1,100 K) and press...
Small-model experiments were conducted of the engine-over-the-wing concept using a D-shaped nozzle i...
The results of preliminary acoustic tests of the engine over the wing concept are summarized. The te...
Acoustic shielding benefits for CTOL over-the-wing (OTW) applications were obtained experimentally w...
Acoustic spectral data obtained from a model-scale study of several over the wing (OTW) configuratio...
Jet noise shielding benefits for CTOL engine-over-the-wing installations were obtained with various ...
We present parametric subscale experimental studies of jet noise shielding in two basic configuratio...
Future STOL aircraft may utilize engine-over-the-wing installations in which the exhaust nozzles are...
On the basis of static aero/acoustic data obtained at model scale, the effect of exhaust nozzle size...
Experimental noise data for a nozzle exhaust system incorporating a thermal acoustic shield (TAS) ar...
Typical installed separate-flow exhaust nozzle system. The jet noise from modern turbofan engines is...
Aircraft noise mitigation is an ongoing challenge for the aeronautics research community. In respons...