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Design requirements for the NASA Langley supersonic low-disturbance wind tunnel (1986)

Creel, T. R., Jr. ; Beckwith, I. E. ; Chen, F.-J.

In: Other Sources

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Publication Date: 2019-06-28

Description: The high intensity, high frequency acoustic disturbances that cause large adverse boundary layer transition effects on test models in conventional supersonic wind tunnels consist of finite length wavelets radiating from eddies in the turbulent boundary layers of the wind tunnel walls. NASA Langley has undertaken 'quiet' supersonic tunnel research that demonstrates the ability to maintain laminarity at high unit Reynolds numbers on limited upstream regions of the nozzle wall boundary layers in small, Mach 3.0, 3.5, and 5.0 pilot tunnels. The high level acoustic disturbances are then eliminated, and the transition Reynolds numbers measured on cones approach those for atmospheric flight. Attention is presently given to the design requirements that can be extrapolated from these results for a large wind tunnel facility; high quality air filtering, noise attenuation, nozzle coordinate accuracy, and surface finish, are quantified with pilot tunnel data.

Keywords: RESEARCH AND SUPPORT FACILITIES (AIR)

Type: AIAA PAPER 86-0763

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Design and fabrication requirements for low-noise supersonic/hypersonic wind tunnels (1988)

Beckwith, I. E. ; Malik, M. R. ; Chen, F.-J.

In: Other Sources

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Publication Date: 2019-06-28

Description: Analyses of NASA Langley experimental results obtained from efforts to develop a low disturbance wind tunnel by means of linear stability theory have shown that the amplification of Gortler vortices on the concave walls of nozzles at Mach numbers from 3 to 5 are the cause of transition. The theory is used to design advanced nozzles for Mach numbers of 3.5 and 6 which can generate substantially longer quiet test regions. Transition on the nozzle walls is noted to be extremely sensitive to nozzle wall roughness and contamination.

Keywords: RESEARCH AND SUPPORT FACILITIES (AIR)

Type: AIAA PAPER 88-0143

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Nozzle optimization study for quiet supersonic wind tunnels (1984)

Malik, M. R. ; Beckwith, I. E. ; Chen, F.-J.

In: Other Sources

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Publication Date: 2019-06-28

Description: In the present study of the effects of operational factors and nozzle design parameters on the size of the quiet test section in several Mach 3.5 wind tunnel nozzles, the test results from a rapid expansion pilot nozzle with boundary layer removal slots upstream of the throat have shown that the low stream noise levels required for transition research are only obtainable with laminar nozzle wall boundary layers. Six different nozzles were evaluated, including a flat wall radial flow nozzle and a novel rod-wall nozzle. Attention is given to rms surface finish effects on quiet test region length.

Keywords: RESEARCH AND SUPPORT FACILITIES (AIR)

Type: AIAA PAPER 84-1628

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Free stream noise and transition measurements in a Mach 3.5 pilot quiet tunnel (1983)

Kendall, J. M. ; Chen, F.-J. ; Creel, T. R., Jr. ; [et al.]

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Publication Date: 2019-07-13

Description: Free stream fluctuating pressures are determined from hot-wire measurements in a Mach 3.5 pilot quiet nozzle over a unit Reynolds number range from 10-60 million per meter. Further, the transition Reynolds numbers on a sharp tip 5 degree half-angle cone at zero angle of attack are obtained over the same range of unit Reynolds numbers from equilibrium temperature measurements on the cone. Results show that the nozzle provides noise levels in the upstream regions of the test rhombus that are substantially lower than in conventional nozzles. The normalized rms levels of the fluctuating static pressures are found to vary from extremely low values of less than 0.03% up to about 0.8% depending on the unit Reynolds number, the axial location in the test rhombus, and the bleed slot flow. By opening the boundary-layer bleed flow, the wall boundary layers over upstream regions of the nozzle become laminar and the absence of high frequency radiated noise then results in cone transition Reynolds numbers that are in the range of free-flight data. As the unit Reynolds numbers are increased, the nozzle wall boundary layers become transitional and turbulent, and the noise increases to peak levels of about 0.5% with significant energy up to 150 KHz. The cone transition Reynolds numbers then decrease to values that are in the range of those measured in conventional wind tunnels.

Keywords: RESEARCH AND SUPPORT FACILITIES (AIR)

Type: AIAA PAPER 83-0042 , American Institute of Aeronautics and Astronautics, Aerospace Sciences Meeting; Jan 10, 1983 - Jan 13, 1983; Reno, NV

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