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Iterative broadening (1992)

Ginsberg, Matthew L. ; Harvey, William D.

Elsevier

In: Artificial Intelligence. 1992; 55(2-3): 367-383. Published 1992 Jun 01. doi: 10.1016/0004-3702(92)90059-7.

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Publication Date: 1992-06-01

Print ISSN: 0004-3702

Electronic ISSN: 1872-7921

Topics: Computer Science

Published by Elsevier

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The Langley 8-ft transonic pressure tunnel laminar-flow-control experiment (1992)

Brooks, Cuyler W., Jr. ; Harvey, William D. ; Bobbitt, Percy J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: An account is given of the considerations involved in selecting the NASA-Langley transonic pressure tunnel's design and test parameters, as well as its liner and a swept wing for laminar flow control (LFC) experimentation. Attention is given to the types and locations of the instrumentation employed. Both slotted and perforated upper surfaces were tested with partial- and full-chord suction; representative results are presented for all.

Keywords: RESEARCH AND SUPPORT FACILITIES (AIR)

Type: In: Natural laminar flow and laminar flow control (A93-41776 17-02); p. 247-411.

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3

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Laminar-flow wind tunnel experiments (1989)

Harris, Charles D. ; Sewall, William G. ; Harvey, William D. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: Although most of the laminar flow airfoils recently developed at the NASA Langley Research Center were intended for general aviation applications, low-drag airfoils were designed for transonic speeds and wind tunnel performance tested. The objective was to extend the technology of laminar flow to higher Mach and Reynolds numbers and to swept leading edge wings representative of transport aircraft to achieve lower drag and significantly improved operation costs. This research involves stabilizing the laminar boundary layer through geometric shaping (Natural Laminar Flow, NLF) and active control involving the removal of a portion of the laminar boundary layer (Laminar-Flow Control, LFC), either through discrete slots or perforated surface. Results show that extensive regions of laminar flow with large reductions in skin friction drag can be maintained through the application of passive NLF boundary-layer control technologies to unswept transonic wings. At even greater extent of laminar flow and reduction in the total drag level can be obtained on a swept supercritical airfoil with active boundary layer-control.

Keywords: AERODYNAMICS

Type: Transonic Symposium: Theory, Application and Experiment, Volume 2; p 105-145

Format: application/pdf

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4

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Results of correlations for transition location on a clean-up glove installed on an F-14 aircraft and design studies for a laminar glove for the X-29 aircraft accounting for spanwise pressure gradient (1989)

Morgan, H. L. ; Harvey, William D. ; Bobbitt, P. J. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: Results of correlative and design studies for transition location, laminar and turbulent boundary-layer parameters, and wake drag for forward swept and aft swept wings are presented. These studies were performed with the use of an improved integral-type boundary-layer and transition-prediction methods. Theoretical predictions were compared with flight measurements at subsonic and transonic flow conditions for the variable aft swept wing F-14 aircraft for which experimental pressure distributions, transition locations, and turbulent boundary-layer velocity profiles were measured. Flight data were available at three spanwise stations for several values of sweep, freestream unit Reynolds number, Mach numbers, and lift coefficients. Theory/experiment correlations indicate excellent agreement for both transition location and turbulent boundary-layer parameters. The results of parametric studies performed during the design of a laminar glove for the forward swept wing X-29 aircraft are also presented. These studies include the effects of a spanwise pressure gradient on transition location and wake drag for several values of freestream Reynolds numbers at a freestream Mach number of 0.9.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: Transonic Symposium: Theory, Application and Experiment, Volume 2; p 167-227

Format: application/pdf

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Results for the hybrid laminar flow control experiment conducted in the NASA Langley 8-foot transonic pressure tunnel on a 7-foot chord model (1992)

Ferris, James C. ; Harvey, William D. ; Goradia, Suresh H. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A description is given of the development of, and results from, the hybrid laminar flow control (HLFC) experiment conducted in the NASA LaRC 8 ft Transonic Pressure Tunnel on a 7 ft chord, 23 deg swept model. The methods/codes used to obtain the contours of the HLFC model surface and to define the suction requirements are outlined followed by a discussion of the model construction, suction system, instrumentation, and some example results from the wind tunnel tests. Included in the latter are the effects of Mach number, suction level, and the extent of suction. An assessment is also given of the effect of the wind tunnel environment on the suction requirements. The data show that, at or near the design Mach number, large extents of laminar flow can be achieved with suction mass flows over the first 25 percent, or less, of the chord. Top surface drag coefficients with suction extending from the near leading edge to 20 percent of the chord were approximately 40 percent lower than those obtained with no suction. The results indicate that HLFC can be designed for transonic speeds with lift and drag coefficients approaching those of LFC designs but with much smaller extents and levels of suction.

Keywords: ASTRONAUTICS (GENERAL)

Type: NASA-TM-107582 , NAS 1.15:107582

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The NASA Langley laminar-flow-control experiment on a swept, supercritical airfoil: Suction coefficient analysis (1991)

Harvey, William D. ; Harris, Charles D. ; Brooks, Cuyler W., Jr.

In: CASI

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Publication Date: 2019-06-28

Description: A swept supercritical wing incorporating laminar flow control at transonic flow conditions was designed and tested. The definition of an experimental suction coefficient and a derivation of the compressible and incompressible formulas for the computation of the coefficient from measurable quantities is presented. The suction flow coefficient in the highest velocity nozzles is shown to be overpredicted by as much as 12 percent through the use of an incompressible formula. However, the overprediction on the computed value of suction drag when some of the suction nozzles were operating in the compressible flow regime is evaluated and found to be at most 6 percent at design conditions.

Keywords: AERODYNAMICS

Type: NASA-TM-4267 , L-16774 , NAS 1.15:4267

Format: application/pdf

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7

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Experimental transition and boundary-layer stability analysis for a slotted swept laminar flow control airfoil (1989)

Harris, Charles D. ; Harvey, William D. ; Brooks, Cuyler W., Jr.

In: Other Sources

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Publication Date: 2018-12-01

Description: A swept, supercritical laminar flow control (LFC) airfoil designated NASA SCLFC(1)-0513F was tested at subsonic and transonic speeds in the NASA Langley eight-foot Transonic Pressure Tunnel. This paper examines Tollmien-Schlichting and crossflow disturbance amplification for this airfoil using the linear stability method. The design methodology using linear stability analysis is evaluated and the results of the incompressible and compressible methods are compared. Experimental data on the swept, supercritical LFC airfoil and reference wind tunnel and flight results are used to correlate and evaluate the N-factor method for transition prediction over a speed range M(infinity) from zero to one.

Keywords: AERODYNAMICS

Format: text

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The NASA Langley Laminar-Flow-Control (LFC) experiment on a swept, supercritical airfoil: Design overview (1988)

Harvey, William D. ; Brooks, Cuyler W., Jr. ; Harris, Charles D.

In: CASI

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Publication Date: 2019-06-28

Description: A large-chord, swept, supercritical, laminar-flow-control (LFC) airfoil was designed and constructed and is currently undergoing tests in the Langley 8 ft Transonic Pressure Tunnel. The experiment was directed toward evaluating the compatibility of LFC and supercritical airfoils, validating prediction techniques, and generating a data base for future transport airfoil design as part of NASA's ongoing research program to significantly reduce drag and increase aircraft efficiency. Unique features of the airfoil included a high design Mach number with shock free flow and boundary layer control by suction. Special requirements for the experiment included modifications to the wind tunnel to achieve the necessary flow quality and contouring of the test section walls to simulate free air flow about a swept model at transonic speeds. Design of the airfoil with a slotted suction surface, the suction system, and modifications to the tunnel to meet test requirements are discussed.

Keywords: AERODYNAMICS

Type: NASA-TP-2809 , L-16324 , NAS 1.60:2809

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9

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The NASA Langley laminar-flow-control experiment on a swept, supercritical airfoil - Drag equations (1989)

Harvey, William D. ; Harris, Charles D. ; Brooks, Cuyler W., Jr.

In: CASI

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Publication Date: 2019-06-28

Description: The Langley Research Center has designed a swept, supercritical airfoil incorporating Laminar Flow Control for testing at transonic speeds. Analytical expressions have been developed and an evaluation made of the experimental section drag, composed of suction drag and wake drag, using theoretical design information and experimental data. The analysis shows that, although the sweep-induced boundary-layer crossflow influence on the wake drag is too large to be ignored and there is not a practical method for evaluating these crossflow effects on the experimental wake data, the conventional unswept 2-D wake-drag computation used in the reduction of the experimental data is at worst 10 percent too high.

Keywords: AERODYNAMICS

Type: NASA-TM-4096 , L-16322 , NAS 1.15:4096

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10

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Boundary-layer control for drag reduction (1988)

Harvey, William D.

In: Other Sources

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Publication Date: 2019-07-13

Description: Although the number of possible applications of boundary-layer control is large, a discussion is given only of those that have received the most attention recently at NASA Langley Research Center to improve airfoil drag characteristics. This research concerns stabilizing the laminar boundary layer through geometric shaping (natural laminar flow, NLF) and active control involving the removal of a portion of the laminar boundary layer (laminar flow control, LFC) either through discrete slots or a perforated surface. At low Reynolds numbers, a combination of shaping and forced transition has been used to achieve the desired run of laminar flow and control of laminar separation. In the design of both natural laminar flow and laminar flow control airfoils and wings, boundary layer stability codes play an important role. A discussion of some recent stability calculations using both incompressible and compressible codes is given.

Keywords: AERODYNAMICS

Type: SAE PAPER 872434 , International Pacific Air and Space Technology Conference; Nov 13, 1987 - Nov 17, 1987; Melbourne; Australia

Format: text

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