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1

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Safe atmosphere entry of an isotope heat source with a single stable trim attitude at hypersonic speeds (1972)

Levy, L. L., Jr. ; Burns, R. K.

In: CASI

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Publication Date: 2019-06-27

Description: A theoretical investigation has been made to design an isotope heat source capable of satisfying the conflicting thermal requirements of steady-state operation and atmosphere entry. The isotope heat source must transfer heat efficiently to a heat exchange during normal operation with a power system in space, and in the event of a mission abort, it must survive the thermal environment of atmosphere entry and ground impact without releasing radioactive material. A successful design requires a compatible integration of the internal components of the heat source with the external aerodynamic shape. To this end, configurational, aerodynamic, motion, and thermal analyses were coupled and iterated during atmosphere entries at suborbital through superorbital velocities at very shallow and very steep entry angles. Results indicate that both thermal requirements can be satisfied by a heat source which has a single stable aerodynamic orientation at hypersonic speeds. For such a design, the insulation material required to adequately protect the isotope fuel from entry heating need extend only half way around the fuel capsule on the aerodynamically stable (wind-ward) side of the heat source. Thus, a low-thermal-resistance, conducting heat path is provided on the opposite side of the heat source through which heat can be transferred to an adjacent heat exchanger during normal operation without exceeding specified temperature limits.

Keywords: AERODYNAMICS

Type: NASA-TN-D-6833 , A-4342

Format: application/pdf

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2

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Effect of Reynolds number on overall performance of a 3.7-inch-diameter six-stage axial-flow compressor (1972)

Heidelberg, L. J. ; Ball, C. L.

In: CASI

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Publication Date: 2019-06-27

Description: A 9.4-centimeter (3.7-in.) diameter six-stage axial-flow compressor was tested in argon over a range of inlet pressures corresponding to a Reynolds number range of 30,600 to 160,000. The effect of Reynolds number on efficiency, pressure ratio, work input, maximum flow, and surge is shown. The Reynolds number effects are discussed in terms of changes in boundary-layer thickness, losses, and the resulting changes in throughflow velocity. Significant deviation was noted from the 0.2 power relation often used to express the variation of loss with Reynolds number.

Keywords: AERODYNAMICS

Type: NASA-TN-D-6628 , E-6522

Format: application/pdf

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3

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Performance of 1380 foot per second tip-speed axial-flow compressor rotor blade tip solidity of 1.5 (1972)

Reid, L. ; Janetzke, D. C. ; Ball, C. L.

In: CASI

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Publication Date: 2019-06-27

Description: This presents the aerodynamic design parameters along with the overall and blade element performance of an axial-flow compressor rotor designed to study the effects of blade solidity on efficiency and stall margin. At design speed the peak efficiency was 0.892 and occurred at an equivalent weight flow of 65.0 lb/sec. The total pressure ratio was 1.83 and the total temperature ratio was 1.215. Design efficiency, weight flow, pressure ratio, and temperature ratio were 0.824, 65.3, 1.65, and 1.187, respectively. Stall margin for design speed was 10 percent based on the weight flow and pressure ratio values at peak efficiency and just prior to stall.

Keywords: AERODYNAMICS

Type: NASA-TM-X-2379 , E-5723

Format: application/pdf

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4

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Study of induced load and stress, volume 3 (1972)

Reddecliff, J. M. ; Coons, L. L. ; Young, W. E. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: An analytical and experimental investigation into the effects of blade tip clearance on inducer performance and of leading edge sweepback on both blade pressure loading and performance was performed. Tip clearance flow was represented with a vortex flow model and measured data from previous inducer tests at three clearances were correlated with model predictions. A leading edge model was added to an existing inducer internal flow analysis, tests with two sweepbacks were conducted, and blade pressure and performance predictions were correlated with measured data.

Keywords: AERODYNAMICS

Type: NASA-CR-72712 , PWA-FR-3704-VOL-3

Format: application/pdf

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5

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F-8 supercritical wing pressure distribution evaluation (1972)

Montoya, L. C. ; Banner, R. D.

In: CASI

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Publication Date: 2004-12-03

Keywords: AERODYNAMICS

Type: Supercritical Wing Technol.: A Report on Flight Evaluation; p 71-84

Format: text

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6

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Externally blown flap impingement noise (1972)

Putnam, T. W. ; Lasagna, P. L.

In: CASI

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Publication Date: 2006-03-27

Description: Tests of the noise produced by the impingement of the jet exhaust on the wing and flap for an externally blown flap system were conducted with a CF700 turbofan engine and an F-111B wing panel. The noise produced with a daisy nozzle installed on the engine was greater than that produced by a conical nozzle at the same thrust. The presence of the wing next to the test nozzles increased the noise, as did increasing the flap deflection angle. Compared with the conical nozzle, the daisy nozzle produced slightly less noise at a flap deflection of 60 deg but produced more noise at the lower flap deflections tested. Tests showed that the single-slotted flap deflected 60 deg, produced less noise than the double-slotted flaps. Also, maintaining the maximum distance between the exit nozzle and flap system resulted in a minor reduction in noise.

Keywords: AERODYNAMICS

Type: STOL Technol.; p 427-441

Format: text

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7

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Survey of wing and flap lower-surface temperatures and pressures during full-scale ground tests of an externally blown flap system (1972)

Hughes, D. L.

In: CASI

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Publication Date: 2006-03-27

Description: Full-scale ground tests of an externally blown flap system were made using the wing of an F-111B airplane and a CF700 engine. Pressure and temperature distributions were determined on the undersurface of the wing, vane, and flap for two engine exhaust nozzles (conical and daisy) at several engine power and engine/wing positions. The tests were made with no airflow over the wing. The leading-edge wing sweep angle was fixed at 26 deg, the angle of incidence between the engine and the wing was fixed at 3 deg, and the tests were conducted with the flap retracted, extended and deflected 35 deg, and extended and deflected 60 deg. The integrated local pressures on the undersurface of the flap produced loads approximately three times as great at the 60 deg flap position as at the 35 deg flap position. With both nozzle configurations, more than 90 percent of the integrated pressure loads were contained within plus or minus 20 percent of the flap span centered around the engine exhaust centerline. The maximum temperature recorded on the flaps was 218 C (424 F) for the conical nozzle and 180 C (356 F) for the daisy nozzle.

Keywords: AERODYNAMICS

Type: STOL Technol.; p 143-156

Format: text

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8

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Simulator evaluation of the flying qualities of externally blown flap and augmentor wing transport configurations (1972)

Powers, B. G. ; Kier, D. A. ; Nguyen, L. T. ; [et al.]

In: CASI

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Publication Date: 2006-03-27

Description: Concurrent simulations of powered-lift STOL transport aircraft having either an externally blown flap configuration or an augmentor wing configuration were conducted. The following types of simulators of varying sophistication were used: (1) a simple fixed-base simulation with a simple visual display, (2) a more complex fixed-base simulation using a realistic transport cockpit and a high-quality visual display, and (3) a six-degree-of-freedom motion simulator that had a realistic transport cockpit and a sophisticated visual display. The unaugmented flying qualities determined from these simulations were rated as unacceptable for both the externally blown flap and augmentor wing configurations. The longitudinal, lateral-directional, and single-engine-failure characteristics were rated satisfactory with extensive augmentation, including pitch and roll command systems, flight-path (or speed) augmentation, turn coordination, and effective yaw damping. However, the flare and landing characteristics from any approach glide-path angle in excess of 4 deg were rated as unsatisfactory but acceptable.

Keywords: AERODYNAMICS

Type: STOL Technol.; p 157-800

Format: text

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9

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Stability and control of externally blown flap configurations (1972)

Parlett, L. P.

In: CASI

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Publication Date: 2006-03-27

Description: The results of wind-tunnel investigations on the stability and control characteristics of externally blown jet-flap configurations are presented. Conventional wind-tunnel tests and free-flight model tests have shown that longitudinal trim and stability can be achieved by a properly located horizontal tail of sufficient size, and that lateral trim in the engine-out condition can be produced by combinations of differential flap, spoiler, and rudder deflection. Free-flight model tests have revealed a lightly damped Dutch roll lateral oscillation, and have shown that the oscillation can be stabilized by use of artificial damping.

Keywords: AERODYNAMICS

Type: STOL Technol.; p 55-70

Format: text

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10

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Shock-wave, turbulent boundary-layer interaction on a blunted compression surface. (1972)

Rose, W. C. ; Watson, E. C. ; Nielsen, H. L.

In: Other Sources

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Publication Date: 2011-08-16

Description: The application of Rose's (1970) analytical method to the study of a shock wave interacting with a turbulent layer on a blunted compression surface is described. Only those details of the method that specifically apply to the case under consideration are discussed.

Keywords: AERODYNAMICS

Type: Journal of Spacecraft and Rockets; 9; Apr. 197

Format: text

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