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1

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Contingency power for small turboshaft engines (1989)

Berger, Brett ; Biesiadny, Thomas J. ; Klann, Gary A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Keywords: AIRCRAFT PROPULSION AND POWER

Type: Journal of Propulsion and Power (ISSN 0748-4658); 5; 103-108

Format: text

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2

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Hot gas ingestion: From model results to full scale engine testing (1987)

Pagel, L. L. ; Johns, Albert L. ; Biesiadny, Thomas J.

In: CASI

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Publication Date: 2013-08-31

Description: An overview is presented of a joint NASA Lewis McDonnell Aircraft Co. Hot Gas Ingestion (HGI) test program in NASA Lewis' 9 x 15 foot Low Speed Wind Tunnel (LSWT). Advanced short takeoff vertical landing (ASTOVL) aircraft capable of operating from remote sites, damaged runways, aircraft carriers and small air-capable ships are being pursued for deployment around the turn of the century. To achieve this goal, it is important that technologies critical to this unique class of aircraft be developed. One of the ASTOVL concepts, the vectored thrust, has as its critical technology item, the potential of hot gas ingestion (which occurs during vertical flight operation while in ground effect) as a key development issue. Recognizing this need, NASA Lewis Powered Lift Section and McAir have defined a cooperative program for testing in the Lewis 9 x 15 foot LSWT. This program is described in detail.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA. Ames Research Center Proceedings of the 1985 NASA Ames Research Center's Ground-Effects Workshop; p 341-361

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3

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Dynamic and Transient Performance of Turbofan/Turboshaft Convertible Engine With Variable Inlet Guide Vanes (1996)

McArdle, Jack G. ; Barth, Richard L. ; Wenzel, Leon M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A convertible engine called the CEST TF34, using the variable inlet guide vane method of power change, was tested on an outdoor stand at the NASA Lewis Research Center with a waterbrake dynamometer for the shaft load. A new digital electronic system, in conjunction with a modified standard TF34 hydromechanical fuel control, kept engine operation stable and safely within limits. All planned testing was completed successfully. Steady-state performance and acoustic characteristics were reported previously and are referenced. This report presents results of transient and dynamic tests. The transient tests measured engine response to several rapid changes in thrust and torque commands at constant fan (shaft) speed. Limited results from dynamic tests using the pseudorandom binary noise technique are also presented. Performance of the waterbrake dynamometer is discussed in an appendix.

Keywords: Aircraft Propulsion and Power

Type: NASA-TM-4696 , E-9637 , NAS 1.15:4696

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4

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Contingency power for small turboshaft engines using water injection into turbine cooling air (1987)

Clark, David A. ; Klann, Gary A. ; Biesiadny, Thomas J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Because of one engine inoperative requirements, together with hot-gas reingestion and hot day, high altitude takeoff situations, power augmentation for multiengine rotorcraft has always been of critical interest. However, power augmentation using overtemperature at the turbine inlet will shorten turbine life unless a method of limiting thermal and mechanical stresses is found. A possible solution involves allowing the turbine inlet temperature to rise to augment power while injecting water into the turbine cooling air to limit hot-section metal temperatures. An experimental water injection device was installed in an engine and successfully tested. Although concern for unprotected subcomponents in the engine hot section prevented demonstration of the technique's maximum potential, it was still possible to demonstrate increases in power while maintaining nearly constant turbine rotor blade temperature.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-TM-89817 , E-3462 , NAS 1.15:89817 , USAAVSCOM-TR-86-C-32 , AIAA PAPER 87-1906

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5

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Measurement uncertainty for the Uniform Engine Testing Program conducted at NASA Lewis Research Center (1987)

Abdelwahab, Mahmood ; Silver, Dean ; Biesiadny, Thomas J.

In: CASI

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Publication Date: 2019-06-28

Description: An uncertainty analysis was conducted to determine the bias and precision errors and total uncertainty of measured turbojet engine performance parameters. The engine tests were conducted as part of the Uniform Engine Test Program which was sponsored by the Advisory Group for Aerospace Research and Development (AGARD). With the same engines, support hardware, and instrumentation, performance parameters were measured twice, once during tests conducted in test cell number 3 and again during tests conducted in test cell number 4 of the NASA Lewis Propulsion Systems Laboratory. The analysis covers 15 engine parameters, including engine inlet airflow, engine net thrust, and engine specific fuel consumption measured at high rotor speed of 8875 rpm. Measurements were taken at three flight conditions defined by the following engine inlet pressure, engine inlet total temperature, and engine ram ratio: (1) 82.7 kPa, 288 K, 1.0, (2) 82.7 kPa, 288 K, 1.3, and (3) 20.7 kPa, 288 K, 1.3. In terms of bias, precision, and uncertainty magnitudes, there were no differences between most measurements made in test cells number 3 and 4. The magnitude of the errors increased for both test cells as engine pressure level decreased. Also, the level of the bias error was two to three times larger than that of the precision error.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-TM-88943 , E-3234 , NAS 1.15:88943

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6

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Summary of investigations of engine response to distorted inlet conditions (1987)

Soeder, Ronald H. ; Biesiadny, Thomas J. ; Abdelwahab, Mahmood ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: A survey is presented of experimental and analytical experience of the NASA Lewis Research Center in engine response to inlet temperature and pressure distortions. Results of experimental investigations and analytical modeling are reviewed together with a description of the hardware and the techniques employed. Distortion devices successfully simulated inlet distortion, and knowledge was gained on compression system response to different types of distortion. A list of NASA research references is included.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AGARD Engine Response to Distorted Inflow Conditions; 21 p

Format: text

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7

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Contingency power for small turboshaft engines using water injection into turbine cooling air (1987)

Berger, Brett ; Clark, David A. ; Klann, Gary A. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Because of one engine inoperative requirements, together with hot-gas reingestion and hot day, high altitude takeoff situations, power augmentation for multiengine rotorcraft has always been of critical interest. However, power augmentation using overtemperature at the turbine inlet will shorten turbine life unless a method of limiting thermal and mechanical stresses is found. A possible solution involves allowing the turbine inlet temperature to rise to augment power while injecting water into the turbine cooling air to limit hot-section metal temperatures. An experimental water injection device was installed in an engine and successfully tested. Although concern for unprotected subcomponents in the engine hot section prevented demonstration of the technique's maximum potential, it was still possible to demonstrate increases in power while maintaining nearly constant turbine rotor blade temperature.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 87-1906

Format: text

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8

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The Performance of a Subsonic Diffuser Designed for High Speed Turbojet-Propelled Flight (2004)

Biesiadny, Thomas J. ; Wendt, Bruce J.

In: CASI

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Publication Date: 2019-08-13

Description: An initial-phase subsonic diffuser has been designed for the turbojet flowpath of the hypersonic x43B flight demonstrator vehicle. The diffuser fit into a proposed mixed-compression supersonic inlet system and featured a cross-sectional shape transitioning flowpath (high aspect ratio rectangular throat-to-circular engine face) and a centerline offset. This subsonic diffuser has been fabricated and tested at the W1B internal flow facility at NASA Glenn Research Center. At an operating throat Mach number of 0.79, baseline Pitot pressure recovery was found to be just under 0.9, and DH distortion intensity was about 0.4 percent. The diffuser internal flow stagnated, but did not separate on the offset surface of this initial-phase subsonic diffuser. Small improvements in recovery (+0.4 percent) and DH distortion (-32 percent) were obtained from using vane vortex generator flow control applied just downstream of the diffuser throat. The optimum vortex generator array patterns produced inflow boundary layer divergence (local downwash) on the offset surface centerline of the diffuser, and an inflow boundary layer convergence (local upwash) on the centerline of the opposite surface.

Keywords: Aircraft Propulsion and Power

Type: NASA/CR-2004-213410 , E-14925

Format: application/pdf

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9

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Overview of high performance aircraft propulsion research (1992)

Biesiadny, Thomas J.

In: Other Sources

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Publication Date: 2019-07-13

Description: The overall scope of the NASA Lewis High Performance Aircraft Propulsion Research Program is presented. High performance fighter aircraft of interest include supersonic flights with such capabilities as short take off and vertical landing (STOVL) and/or high maneuverability. The NASA Lewis effort involving STOVL propulsion systems is focused primarily on component-level experimental and analytical research. The high-maneuverability portion of this effort, called the High Alpha Technology Program (HATP), is part of a cooperative program among NASA's Lewis, Langley, Ames, and Dryden facilities. The overall objective of the NASA Inlet Experiments portion of the HATP, which NASA Lewis leads, is to develop and enhance inlet technology that will ensure high performance and stability of the propulsion system during aircraft maneuvers at high angles of attack. To accomplish this objective, both wind-tunnel and flight experiments are used to obtain steady-state and dynamic data, and computational fluid dynamics (CFD) codes are used for analyses. This overview of the High Performance Aircraft Propulsion Research Program includes a sampling of the results obtained thus far and plans for the future.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: SAE PAPER 921983 , SAE, Aerotech ''92 Conference; Oct 05, 1992 - Oct 08, 1992; Anaheim, CA; United States|; 17 p.

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10

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Overview of STOVL aircraft propulsion research offtakes and vertical lift systems (1993)

Mcardle, Jack G. ; Esker, Barbara S. ; Biesiadny, Thomas J.

In: CASI

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Publication Date: 2019-07-13

Description: The overall Short Takeoff and Vertical Landing (STOVL) Aircraft Propulsion Research program includes key technologies involving offtake systems, vertical lift systems, hot gas ingestion, STOVL augmentors, and integrated flight propulsion controls. A part of the NASA Lewis work involving STOVL aircraft propulsion systems is presented with the emphasis on component-level experiments and analysis related to offtakes and vertical lift systems.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-TM-106387 , E-8207 , NAS 1.15:106387 , AIAA PAPER 93-4865 , International Powered Lift Conference; Dec 01, 1993 - Dec 03, 1993; Santa Clara, CA; United States

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