ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

11

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Energy Efficient Transport - Technology in hand (1984)

Middleton, D. B. ; Hood, R. V. ; Bartlett, D. W.

In: Other Sources

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Publication Date: 2011-08-18

Description: Technologies developed through NASA's Energy Efficient Transport Program are described. The program was charged with research in advanced aerodynamics and active controls, with the goal of increasing the fuel efficiency of transport aircraft by 15 to 20 percent. Research in aerodynamics was directed toward the development of high-aspect-ratio supercritical wings, winglets, computational design methodology, high-lift devices, propulsion airframe integration, and surface coatings. The active control portion of the program investigated Wing Load Alleviation (WLA) through the use of active controls, drag reduction, and the effect of active pitch controls on fuel consumption. It was found that applying active control functions at the beginning of the aircraft design cycle brings the best benefit, and that if active control and advanced aerodynamic airframe configurations are applied to transport aircraft design concurrently with new lightweight materials, fuel consumption can be reduced by as much as 40 percent.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: Aerospace America (ISSN 0740-722X); 22

Format: text

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12

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Technology developments for laminar boundary layer control on subsonic transport aircraft (1984)

Fischer, M. C. ; Wagner, R. D. ; Maddalon, D. V.

In: Other Sources

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Publication Date: 2018-12-01

Description: The development of laminar-flow technology for commercial transport aircraft is discussed and illustrated in a review of studies undertaken in the NASA Aircraft Energy Efficiency (ACEE) program since 1976. The early history of laminar-flow-control (LFC) techniques and natural-laminar-flow (NLF) airfoil designs is traced, and the aims of ACEE are outlined. The application of slotted structures, composites, and electron-beam-perforated metals in supercritical LFC airfoils, wing panels, and leading-edge systems is examined; wind-tunnel and flight test results are summarized; studies of high-altitude ice effects are described; and hybrid LFC/NLF designs are characterized. Drawings and photographs are provided.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Format: text

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13

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Technology developments for laminar boundary layer control on subsonic transport aircraft (1984)

Wagner, R. D. ; Maddalon, D. V. ; Fischer, M. C.

In: Other Sources

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Publication Date: 2018-12-01

Description: An overview of laminar flow control (LFC) technology developments is presented, along with a description of NASA's broadened program concerning laminar flow concepts for commercial transports. Topics covered include developments in LFC airfoils, wing surface panels, and leading-edge systems, as well as the effects of high altitude ice particles and insect impacts. It is suggested that the electron beam perforated titanium surface is superior to the Dynapore surface. The Douglas LFC wing design, the Krueger flap, the Lockheed, and the Douglas leading-edge concepts are covered. Future research includes an evaluation of a hybrid LFC concept, which combines LFC suction in the leading-edge region with natural laminar flow over the wing box.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Format: text

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14

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The performance evaluation of a jet flap on an advanced supersonic harrier (1984)

Sandlin, D. R. ; Lipera, L. D.

In: CASI

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Publication Date: 2019-06-28

Description: The performance concept of a supersonic vertical and short takeoff and landing (V/STOL) fighter, model 279-3, modified to utilize a jet flap was evaluated. Replacing the rear nozzles of the 279-3 with the jet flap favorably alters the pressure distribution over the airfoil and dramatically increases lift. The result is a significant decrease in takeoff distance, an increase in payload, and an improvement in combat performance. To investigate the benefit in increased payload, the 279-3 and the jet flapped 279-3JF were modeled on the NASA Aircraft Synthesis (ACSYNT) computer code and flown on a 250 feet takeoff distance interdiction mission. The increase in payload weight that the 279-3JF could carry was converted into fuel in one case, and in another, converted to bomb load. When the fuel was increased, the 279-3JF penetrated into enemy territory almost four times the distance of 279-3, and therefore increased mission capability. When the bomb load was increased, the 279-3JF carried 14 bombs the same distance the 279-3 carried four. The increase in mission performance and improvements in turning rates was realized with only a small penalty in increased empty weight.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-179653 , NAS 1.26:179653

Format: application/pdf

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15

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Effects on inlet technology on cruise speed selection (1980)

Bangert, L. H. ; Horie, G. ; Santman, D. M. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: The impact of cruise speed on technology level for certain aircraft components is examined. External-compression inlets were compared with mixed compression, self starting inlets at cruise Mach numbers of 2.0 and 2.3. Inlet engine combinations that provided the greatest aircraft range were identified. Results show that increased transonic to cruise corrected air flow ratio gives decreased range for missions dominated by supersonic cruise. It is also found important that inlets be designed to minimize spillage drag at subsonic cruise, because of the need for efficient performance for overland operations. The external compression inlet emerged as the probable first choice at Mach 2.0, while the self starting inlet was the probable first choice at Mach 2.3. Airframe propulsion system interference effects were significant, and further study is needed to assess the existing design methods and to develop improvements.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Langley Research Center Supersonic Cruise Res., 1979, pt. 1; p 391-411

Format: application/pdf

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16

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Design of a digital ride quality augmentation system for commuter aircraft (1984)

Downing, D. R. ; Amin, S. P. ; Paduano, J. D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Commuter aircraft typically have low wing loadings, and fly at low altitudes, and so they are susceptible to undesirable accelerations caused by random atmospheric turbulence. Larger commercial aircraft typically have higher wing loadings and fly at altitudes where the turbulence level is lower, and so they provide smoother rides. This project was initiated based on the goal of making the ride of the commuter aircraft as smooth as the ride experienced on the major commercial airliners. The objectives of this project were to design a digital, longitudinal mode ride quality augmentation system (RQAS) for a commuter aircraft, and to investigate the effect of selected parameters on those designs.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-172419 , NAS 1.26:172419

Format: application/pdf

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17

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Status review of a supersonically-biased fighter wing-design study (1983)

Wood, R. M. ; Niedling, L. G. ; Miller, D. S. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Results from an ongoing supersonically-biased fighter wing-design study are summarized. The study has been conducted to explore the effects of supersonic aerodynamic performance, transonic maneuvering, low-speed/high angle-of-attack characteristics, and airframe system integration requirements on fighter aircraft wing design. The approach adopted involves the theoretical and experimental investigation of four advanced aircraft configurations which differ only in wing geometry. Supersonic and low-speed/high angle-of-attack wind tunnel results have been obtained for 20 deg trapezoidal, 65 deg delta, 70/30-deg advanced cranked, and 70/66-deg advanced cranked wing configurations. The supersonic data show that the advanced cranked wings outperform the trapezoidal and delta wings at cruise and moderate lift conditions. Low-speed/high angle-of-attack results show that all wings have significant stability problems above an angle of attack of 20 deg. Aircraft sizing analysis results show that the advanced cranked-wing configurations are significantly lighter, based upon take-off gross weight, than either the trapezoidal or the delta wings.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: AIAA PAPER 83-1857

Format: text

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18

Unknown

Static investigation of the circulation control wing/upper surface blowing concept applied to the quiet short haul research aircraft (1982)

Eppel, J. C. ; Englar, R. J. ; Jaynes, D. N. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Full scale static investigations were conducted on the Quiet Short Haul Research Aircraft (QSRA) to determine the thrust deflecting capabilities of the circulation control wing/upper surface blowing (CCW/USB) concept. This scheme, which combines favorable characteristics of both the A-6/CCW and QSRA, employs the flow entrainment properties of CCW to pneumatically deflect engine thrust in lieu of the mechanical USB flap system. Results show that the no moving parts blown system produced static thrust deflections in the range of 40 deg to 97 deg (depending on thrust level) with a CCW pressure of 208,900 Pa (30.3 psig). In addition, the ability to vary horizontal forces from thrust to drag while maintaining a constant vertical (or lift) value was demonstrated by varying the blowing pressure. The versatility of the CCW/USB system, if applied to a STOL aircraft, was confirmed, where rapid conversion from a high drag approach mode to a thrust recovering waveoff or takeoff configuration could be achieved by nearly instantaneous blowing pressure variation.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-TM-84232 , A-8883 , NAS 1.15:84232

Format: application/pdf

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19

Unknown

Development of MCAERO wing design panel method with interactive graphics module (1984)

Bristow, D. R. ; Hawk, J. D.

In: CASI

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Publication Date: 2019-06-28

Description: A reliable and efficient iterative method has been developed for designing wing section contours corresponding to a prescribed subcritical pressure distribution. The design process is initialized by using MCAERO (MCAIR 3-D Subsonic Potential Flow Analysis Code) to analyze a baseline configuration. A second program DMCAERO is then used to calculate a matrix containing the partial derivative of potential at each control point with respect to each unknown geometry parameter by applying a first-order expansion to the baseline equations in MCAERO. This matrix is calculated only once but is used in each iteration cycle to calculate the geometry perturbation and to analyze the perturbed geometry. The potential on the new geometry is calculated by linear extrapolation from the baseline solution. This extrapolated potential is converted to velocity by numerical differentiation, and velocity is converted to pressure by using Bernoulli's equation. There is an interactive graphics option which allows the user to graphically display the results of the design process and to interactively change either the geometry or the prescribed pressure distribution.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: NAS 1.26:3775 , NASA-CR-3775

Format: application/pdf

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20

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A NASTRAN model of a large flexible swing-wing bomber. Volume 2: NASTRAN model development-horizontal stabilzer, vertical stabilizer and nacelle structures (1982)

Tisher, E. D. ; Latham, R. A. ; Mock, W. D.

In: CASI

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Publication Date: 2019-06-28

Description: The NASTRAN model plans for the horizontal stabilizer, vertical stabilizer, and nacelle structure were expanded in detail to generate the NASTRAN model for each of these substructures. The grid point coordinates were coded for each element. The material properties and sizing data for each element were specified. Each substructure model was thoroughly checked out for continuity, connectivity, and constraints. These substructures were processed for structural influence coefficients (SIC) point loadings and the deflections were compared to those computed for the aircraft detail models. Finally, a demonstration and validation processing of these substructures was accomplished using the NASTRAN finite element program installed at NASA/DFRC facility.

Keywords: AIRCRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-170392-VOL-2 , NAS 1.26:170392-VOL-2 , NA-76-469-VOL-2

Format: application/pdf

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