ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

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Application of a panel method to wake-vortex/wing interaction and comparison with experimental data (1987)

Smith, Brian E. ; Ross, James C.

In: CASI

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Publication Date: 2019-06-28

Description: The ability of the Vortex Separation AEROdynamics (VSAERO) program to calculate aerodynamic loads on wings due to interaction with free vortices was studied. The loads were calculated for various positions of a downstream following wing relative to an upstream vortex-generating wing. Calculated vortex-induced span loads, rolling-moment coefficients, and lift coefficients on the following wing were compared with experimental results of McMillan et al. and El-Ramly et al. Comparisons of calculated and experimental vortex tangential velocities were also made.

Keywords: AERODYNAMICS

Type: NASA-TM-88337 , A-86330 , NAS 1.15:88337

Format: application/pdf

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2

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Experiments in High-Lift for High-Speed Civil Transports (1995)

Ross, James C. ; Olson, Lawrence E.

In: Other Sources

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Publication Date: 2019-07-18

Description: The lecture will present experimental work pertaining to HSCT high-lift aerodynamic testing. The effects of Reynolds number and test techniques will be discussed. The performance of attached-flow and leading-edge vortex-control high-lift devices will also be presented. All of the aerodynamic data presented will be from experiments performed prior to the HSR program. The subject of airframe noise testing and its relevance to highlift testing will be discussed but no quantitative data will be presented.

Keywords: Aircraft Design, Testing and Performance

Type: An Overview of High-Lift Aerodynamics; Jun 23, 1995 - Jun 24, 1995; San Diego, CA; United States

Format: text

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Computational evaluation of an airfoil with a Gurney flap (1992)

Jang, Cory S. ; Cummings, Russell M. ; Ross, James C.

In: Other Sources

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Publication Date: 2019-07-13

Description: A 2D numerical investigation was performed to determine the effect of a Gurney flap on a NACA 4412 airfoil. A Gurney flap is a flat plate on the order of 1 to 3 percent of the airfoil chord length, oriented perpendicular to the airfoil chord line and located at the trailing edge of the airfoil. An incompressible Navier Stokes code, INS2D, was used to calculate the flow field about the airfoil. The fully turbulent results were obtained using the Baldwin-Barth one-equation turbulence model. Gurney flap sizes of 0.5 , 1, 1.25, 1.5, 2, and 3 percent of the airfoil chord were studied. Computational results were compared with experimental results where possible. The numerical solutions show that the Gurney flap increases airfoil lift coefficient with only a slight increase in drag coefficient. Use of a 1.5 percent chord Gurney flap increases the maximum lift coefficient by approximately 0.3 and decreases the angle of attack for a given lift coefficient by more than 3 deg. The numerical solutions exhibit detailed flow structures at the trialing edge and provide a possible explanation for the increased aerodynamic performance.

Keywords: AERODYNAMICS

Type: AIAA PAPER 92-2708 , AIAA Applied Aerodynamics Conference; Jun 22, 1992 - Jun 24, 1992; Palo Alto, CA; United States

Format: text

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4

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Tip Fence for Reduction of Lift-Generated Airframe Noise (1998)

Ross, James C. ; Storms, Bruce L.

In: CASI

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Publication Date: 2019-07-10

Description: The present invention is directed toward a unique lift-generated noise reduction apparatus. This apparatus includes a plurality of tip fences that are secured to the trailing and leading assemblies of the high-lift system, as close as possible to the discontinuities where the vortices are most likely to form. In one embodiment, these tip fences are secured to some or all of the outboard and inboard tips of the wing slats and flaps. The tip fence includes a generally flat, or an aerodynamically shaped plate or device that could be formed of almost any rigid material, such as metal, wood, plastic, fiber glass, aluminum, etc. In a preferred embodiment, the tip fences extend below and perpendicularly to flaps and the slats to which they are attached, such that these tip fences are aligned with the nominal free stream velocity of the aircraft. In addition to reducing airframe noise, the tip fence tends to decrease drag and to increase lift, thus improving the overall aerodynamic performance of the aircraft. Another advantage presented by the tip fence lies in the simplicity of its design, its elegance, and its ready ability to fit on the wing components, such as the flaps and the slats. Furthermore, it does not require non-standard materials or fabrication techniques, and it can be readily, easily and inexpensively retrofited on most of the existing aircraft, with minimal design changes.

Keywords: Aircraft Design, Testing and Performance

Format: application/pdf

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