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1

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Adaptation of a four-wall interference assessment/correction procedure for airfoil tests in the 0.3-m TCT (1984)

Adcock, J. B. ; Gumbert, C. R. ; Newman, P. A. ; [et al.]

In: CASI

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Publication Date: 2006-02-14

Description: Based upon limited, initial observations of wall interference corrections obtained for one airfoil test, there is a need for assessing the upstream flow direction. If there is no direct measurement then a two-pass correction procedure similar to the one described here is required. Questions have arisen pertaining to the correct interpretation of the pressure coefficients measured on the slats of a slotted tunnel wall, the interpretation of just what the calculated equivalent body encompasses or should include, and what can or should be considered as quantitative criteria for data correctability. Further studies using this modified procedure will address these questions. Hopefully, a meaningful WIAC procedure can be validated for the airfoil tests in the 0.3-m TCT.

Keywords: AERODYNAMICS

Type: Wind Tunnel Wall Interference Assessment and Correction, 1983; p 393-414

Format: text

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2

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Effect of boundary layers on solid walls in three-dimensional subsonic wind tunnels (1984)

Barnwell, R. W. ; Adcock, J. B.

In: CASI

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Publication Date: 2006-02-14

Description: A solution for the tunnel wall boundary layer effects for three-dimensional subsonic tunnels is presented. The model potentials are represented with simple singularities placed on the centerline of the tunnel and Laplace's equation in cylindrical coordinates is solved for either the conventional homogeneous slotted-wall boundary condition, the solid-wall viscous boundary condition, or a combination of them. The most pronounced wall boundary layer effect is on solid blockage for completely closed wind tunnels. Boundary layers on the wall reduce the blockage from the solid-wall, no-boundary-layer case in a manner similar to opening slots in a solid wall. Additionally, for solid-wall tunnel configurations, the streamline curvature interference factor is reduced by a significant amount, whereas the lift interference factor at the model station does not depend on the boundary layer parameter. For combination wall configurations, the slot effect of the horizontal walls dominates the viscous effect of the solid sidewalls.

Keywords: AERODYNAMICS

Type: Wind Tunnel Wall Interference Assessment and Correction, 1983; p 205-218

Format: text

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3

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Effect of boundary layers on solid walls in three-dimensional subsonic wind tunnels (1984)

Barnwell, R. W. ; Adcock, J. B.

In: Other Sources

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Publication Date: 2011-08-18

Description: Previously cited in issue 05, p. 580, Accession no. A83-16553

Keywords: AERODYNAMICS

Type: AIAA Journal (ISSN 0001-1452); 22; 365-371

Format: text

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4

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A longitudinal aerodynamic data repeatability study for a commercial transport model test in the National Transonic Facility (1995)

Witkowski, D. P. ; Adcock, J. B. ; Wright, F. L. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A high Reynolds number investigation of a commercial transport model was conducted in the National Transonic Facility (NTF) at Langley Research Center. This investigation was part of a cooperative effort to test a 0.03-scale model of a Boeing 767 airplane in the NTF over a Mach number range of 0.70 to 0.86 and a Reynolds number range of 2.38 to 40.0 x 10(exp 6) based on the mean aerodynamic chord. One of several specific objectives of the current investigation was to evaluate the level of data repeatability attainable in the NTF. Data repeatability studies were performed at a Mach number of 0.80 with Reynolds numbers of 2.38, 4.45, and 40.0 x 10(exp 6) and also at a Mach number of 0.70 with a Reynolds number of 40.0 x 10(exp 6). Many test procedures and data corrections are addressed in this report, but the data presented do not include corrections for wall interference, model support interference, or model aeroelastic effects. Application of corrections for these three effects would not affect the results of this study because the corrections are systematic in nature and are more appropriately classified as sources of bias error. The repeatability of the longitudinal stability-axis force and moment data has been accessed. Coefficients of lift, drag, and pitching moment are shown to repeat well within the pretest goals of plus or minus 0.005, plus or minus 0.0001, and plus or minus 0.001, respectively, at a 95-percent confidence level over both short- and near-term periods.

Keywords: AERODYNAMICS

Type: NASA-TP-3522 , L-17412 , NAS 1.60:3522

Format: application/pdf

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5

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Tables for correcting airfoil data obtained in the Langley 0.3-meter transonic cryogenic tunnel for sidewall boundary-layer effects (1986)

Jenkins, R. V. ; Adcock, J. B.

In: CASI

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Publication Date: 2019-06-28

Description: Tables for correcting airfoil data taken in the Langley 0.3-meter Transonic Cryogenic Tunnel for the presence of sidewall boundary layer are presented. The corrected Mach number and the correction factor are minutely altered by a 20 percent change in the boundary layer virtual origin distance. The sidewall boundary layer displacement thicknesses measured for perforated sidewall inserts and without boundary layer removal agree with the values calculated for solid sidewalls.

Keywords: AERODYNAMICS

Type: NASA-TM-87723 , NAS 1.15:87723

Format: application/pdf

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6

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Effect of Reynolds Number and Mach Number on flow angularity probe sensitivity (1986)

Smith, L. A. ; Adcock, J. B.

In: CASI

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Publication Date: 2019-06-28

Description: Preliminary calibrations were performed on nine flow angularity probes in the Langley 7- by 10-Foot High-Speed Tunnel (7 x 10 HST) and the Langley 0.3-Meter Transonic Cryogenic Tunnel (0.3-m TCT). These probes will be used in surveying the test section flows of the National Transonic Facility (NTF). The probes used in this study have a pyramid head with five pressure orifices. The calibrations consisted of both isolated probe measurements and rake-mounted multiprobe measurements that covered a range of subsonic Mach numbers up to 0.90 and Reynolds numbers per foot up to 40 X 10 to the 6th power. The preliminary calibration in the 7 x 10 HST included testing the probes both individually and in a rake. The 0.3-m TCT calibration tested two probes singly at varying Reynolds numbers. The results from these tests include Mach number, Reynolds number, and rake-mounting effects. The results of these tests showed probe sensitivity to be slightly affected by Mach number. At Reynolds numbers per foot above 10 x 10 to the 6th power, the probe did not exhibit a Reynolds number sensitivity.

Keywords: AERODYNAMICS

Type: NASA-TM-87750 , L-16069 , NAS 1.15:87750

Format: application/pdf

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7

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Further investigation of effect of air injection through slots and porous surfaces on flat-plate turbulent skin friction at Mach 3 (1966)

Braslow, A. L. ; Mc Ree, D. I. ; Adcock, J. B. ; [et al.]

In: CASI

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Publication Date: 2019-05-29

Description: Supersonic flat plate skin friction reduction by air injection into turbulent boundary layer

Keywords: AERODYNAMICS

Type: NASA-TN-D-3311

Format: application/pdf

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8

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A fan pressure ratio correlation in terms of Mach number and Reynolds number for the Langley 0.3 meter transonic cryogenic tunnel (1980)

Lawing, P. L. ; Adcock, J. B. ; Ladson, C. L.

In: CASI

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Publication Date: 2019-06-28

Description: Calibration data for the two dimensional test section of the Langley 0.3 Meter Transonic Cryogenic Tunnel were used to develop a Mach number-Reynolds number correlation for the fan pressure ratio in terms of test section conditions. Well established engineering relationships combined to form an equation which is functionally analogous to the correlation. A geometric loss coefficient which is independent of Reynolds number or Mach number was determined. Present and anticipated uses of this concept include improvement of tunnel control schemes, comparison of efficiencies for operationally similar wind tunnels, prediction of tunnel test conditions and associated energy usage, and determination of Reynolds number scaling laws for similar fluid flow systems.

Keywords: AERODYNAMICS

Type: NASA-TP-1752 , L-13713

Format: application/pdf

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9

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Measurement of recovery temperature on an airfoil in the Langley 0.3-m transonic cryogenic tunnel (1981)

Adcock, J. B. ; Johnson, C. B.

In: Other Sources

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Publication Date: 2019-07-13

Description: Experimental measurements of recovery temperature were made on an airfoil in the Langley 0.3-m Transonic Cryogenic Tunnel at Mach numbers of 0.60 and 0.84 over a Reynolds number per meter range from about 15,000,000 to about 335,000,000. The measured recovery temperatures were considerably below those associated with ideal-gas ambient temperature wind tunnels. This difference was accentuated as the stagnation pressure increased and the total temperature decreased. A boundary-layer code modified for use with cryogenic nitrogen adequately predicted the measured adiabatic wall temperature at all conditions. A quantitative, on-line assessment of the nonadiabatic condition of a model can be made during the operation of a cryogenic wind tunnel by using a correlation for the adiabatic wall temperature which is only a function of total temperature, total pressure, and local Mach number on the model.

Keywords: AERODYNAMICS

Type: AIAA PAPER 81-1062 , Thermophysics Conference; Jun 23, 1981 - Jun 25, 1981; Palo Alto, CA

Format: text

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10

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Effect of boundary layers on solid walls in three-dimensional subsonic wind tunnels (1983)

Barnwell, R. W. ; Adcock, J. B.

In: Other Sources

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Publication Date: 2019-07-13

Description: A linear method is developed which accounts for the effects of boundary layers on solid walls in subsonic three-dimensional wind tunnels. The streamwise gradient of the displacement thickness for a solid-wall boundary layer is expressed in terms of the von Karman momentum integral. The growth of the boundary layer due to the wall shearing stress is small compared to the variation caused by the model-induced pressure gradient. The viscous boundary condition can be expressed in terms of the edge velocity gradient and the gradient of the inviscid velocity potential function at the wall. Utilizing this analysis on the solid walls of several three-dimensional wind tunnel configurations shows that the most pronounced wall boundary-layer effect is on solid blockage for completely closed wind tunnels. For solid-wall tunnel configurations, the streamline curvature interference factor is reduced by a significant amount, while the lift interference factor at the model station does not depend on the boundary-layer parameter. For combination wall configurations, the slot effect of the horizontal walls dominates the viscous effect of the solid sidewalls.

Keywords: AERODYNAMICS

Type: AIAA PAPER 83-0144 , American Institute of Aeronautics and Astronautics, Aerospace Sciences Meeting; Jan 10, 1983 - Jan 13, 1983; Reno, NV

Format: text

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