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Reducing the risk to Mars: The gas core nuclear rocket (1998)

Howe, S. D. ; DeVolder, B. ; Thode, L. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-16

Description: The next giant leap for mankind will be the human exploration of Mars. Almost certainly within the next thirty years, a human crew will brave the isolation, the radiation, and the lack of gravity to walk on and explore the Red planet. However, because the mission distances and duration will be hundreds of times greater than the lunar missions, a human crew will face much greater obstacles and a higher risk than those experienced during the Apollo program. A single solution to many of these obstacles is to dramatically decrease the mission duration by developing a high performance propulsion system. The gas-core nuclear rocket (GCNR) has the potential to be such a system. The authors have completed a comparative study of the potential impact that a GCNR could have on a manned Mars mission. The total IMLEO, transit times, and accumulated radiation dose to the crew will be compared with the NASA Design Reference Missions.

Keywords: Spacecraft Propulsion and Power

Type: LA-UR-97-3361 , CONF-980103 , DE98-001449 , Space Technology and Applications International Forum; Jan 25, 1998 - Jan 29, 1998; Albuquerque, NM; United States

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Mixing of Supersonic Streams (1998)

Parkinson, D. ; Turner, M. ; Hawk, C. W. ; [et al.]

In: CASI

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Publication Date: 2019-08-13

Description: The Strutjet approach to Rocket Based Combined Cycle (RBCC) propulsion depends upon fuel-rich flows from the rocket nozzles and turbine exhaust products mixing with the ingested air for successful operation in the ramjet and scramjet modes. It is desirable to delay this mixing process in the air-augmented mode of operation present during low speed flight. A model of the Strutjet device has been built and is undergoing test to investigate the mixing of the streams as a function of distance from the Strutjet exit plane during simulated low speed flight conditions. Cold flow testing of a 1/6 scale Strutjet model is underway and nearing completion. Planar Laser Induced Fluorescence (PLIF) diagnostic methods are being employed to observe the mixing of the turbine exhaust gas with the gases from both the primary rockets and the ingested air simulating low speed, air augmented operation of the RBCC. The ratio of the pressure in the turbine exhaust duct to that in the rocket nozzle wall at the point of their intersection is the independent variable in these experiments. Tests were accomplished at values of 1.0, 1.5 and 2.0 for this parameter. Qualitative results illustrate the development of the mixing zone from the exit plane of the model to a distance of about 10 rocket nozzle exit diameters downstream. These data show the mixing to be confined in the vertical plane for all cases, The lateral expansion is more pronounced at a pressure ratio of 1.0 and suggests that mixing with the ingested flow would be likely beginning at a distance of 7 nozzle exit diameters downstream of the nozzle exit plane.

Keywords: Spacecraft Propulsion and Power

Type: Dec 07, 1998 - Dec 11, 1998; Tucson, AZ; United States

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Experimental flight test vibration measurements and nondestructive inspection on a USCG HC-130H aircraft (1998)

Moore, D. G. ; Mihelic, J. E. ; Jones, C. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-13

Description: This paper presents results of experimental flight test vibration measurements and structural inspections performed by the Federal Aviation Administration's Airworthiness Assurance NDI Validation Center (AANC) at Sandia National Laboratories and the US Coast Guard Aircraft Repair and Supply Center (ARSC). Structural and aerodynamic changes induced by mounting a Forward Looking Infrared (FLIR) system on a USCG HC-130H aircraft are described. The FLIR adversely affected the air flow characteristics and structural vibration on the external skin of the aircraft's right main wheel well fairing. Upon initial discovery of skin cracking and visual observation of skin vibration in flight by the FLIR, a baseline flight without the FLIR was conducted and compared to other measurements with the FLIR installed. Nondestructive inspection procedures were developed to detect cracks in the skin and supporting structural elements and document the initial structural condition of the aircraft. Inspection results and flight test vibration data revealed that the FLIR created higher than expected flight loading and was the possible source of the skin cracking. The Coast Guard performed significant structural repair and enhancement on this aircraft, and additional in-flight vibration measurements were collected on the strengthened area both with and without the FLIR installed. After three months of further operational FLIR usage, the new aircraft skin with the enhanced structural modification was reinspected and found to be free of flaws. Additional US Coast Guard HC-130H aircraft are now being similarly modified to accommodate this FLIR system. Measurements of in- flight vibration levels with and without the FLIR installed, and both before and after the structural enhancement and repair were conducted on the skin and supporting structure in the aircraft's right main wheel fairing. Inspection results and techniques developed to verify the aircraft's structural integrity are discussed.

Keywords: Aircraft Design, Testing and Performance

Type: DE98-006173 , SAND-98-0248C , CONF-980830 , Aging aircraft

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Analysis of a Rocket Based Combined Cycle Engine during Rocket Only Operation (1998)

Steffen, C. J., Jr. ; Smith, T. D. ; Yungster, S. ; [et al.]

In: CASI

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Publication Date: 2019-08-13

Description: The all rocket mode of operation is a critical factor in the overall performance of a rocket based combined cycle (RBCC) vehicle. However, outside of performing experiments or a full three dimensional analysis, there are no first order parametric models to estimate performance. As a result, an axisymmetric RBCC engine was used to analytically determine specific impulse efficiency values based upon both full flow and gas generator configurations. Design of experiments methodology was used to construct a test matrix and statistical regression analysis was used to build parametric models. The main parameters investigated in this study were: rocket chamber pressure, rocket exit area ratio, percent of injected secondary flow, mixer-ejector inlet area, mixer-ejector area ratio, and mixer-ejector length-to-inject diameter ratio. A perfect gas computational fluid dynamics analysis was performed to obtain values of vacuum specific impulse. Statistical regression analysis was performed based on both full flow and gas generator engine cycles. Results were also found to be dependent upon the entire cycle assumptions. The statistical regression analysis determined that there were five significant linear effects, six interactions, and one second-order effect. Two parametric models were created to provide performance assessments of an RBCC engine in the all rocket mode of operation.

Keywords: Spacecraft Propulsion and Power

Type: NASA/TM-1998-206639/REV1 , NAS 1.15:206639/REV1 , E-11106 , Propulsion Meeting; Jul 15, 1998 - Jul 17, 1998; Cleveland, OH; United States

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Two Dimensional Wake Vortex Simulations in the Atmosphere: Preliminary Sensitivity Studies (1998)

Schowalter, D. G. ; Han, J. ; Hinton, D. A. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: A numerical large-eddy simulation model is currently being used to quantify aircraft wake vortex behavior with meteorological observables. The model, having a meteorological framework, permits the interaction of wake vortices with environments characterized by crosswind shear, stratification, and humidity. The addition of grid-scale turbulence as an initial condition appeared to have little consequence. Results show that conventional nondimensionalizations work very well for vortex pairs embedded in stably stratified flows. However, this result is based on simple environments with constant Brunt-Vaisala frequency. Results presented here also show that crosswind profiles exert important and complex interactions on the trajectories of wake vortices. Nonlinear crosswind profiles tended to arrest the descent of wake vortex pairs. The member of the vortex pair with vorticity of same sign as the vertical change in the ambient along-track vorticity may be deflected upwards.

Keywords: Aircraft Design, Testing and Performance

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Hyper-X Engine Design and Ground Test Program (1998)

Voland, R. T. ; Rock, K. E. ; McClinton, C. R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Hyper-X Program, NASA's focused hypersonic technology program jointly run by NASA Langley and Dryden, is designed to move hypersonic, air-breathing vehicle technology from the laboratory environment to the flight environment, the last stage preceding prototype development. The Hyper-X research vehicle will provide the first ever opportunity to obtain data on an airframe integrated supersonic combustion ramjet propulsion system in flight, providing the first flight validation of wind tunnel, numerical and analytical methods used for design of these vehicles. A substantial portion of the integrated vehicle/engine flowpath development, engine systems verification and validation and flight test risk reduction efforts are experimentally based, including vehicle aeropropulsive force and moment database generation for flight control law development, and integrated vehicle/engine performance validation. The Mach 7 engine flowpath development tests have been completed, and effort is now shifting to engine controls, systems and performance verification and validation tests, as well as, additional flight test risk reduction tests. The engine wind tunnel tests required for these efforts range from tests of partial width engines in both small and large scramjet test facilities, to tests of the full flight engine on a vehicle simulator and tests of a complete flight vehicle in the Langley 8-Ft. High Temperature Tunnel. These tests will begin in the summer of 1998 and continue through 1999. The first flight test is planned for early 2000.

Keywords: Aircraft Design, Testing and Performance

Type: AIAA Paper 98-1532 , AIAA 8th International Space Planes and Hypersonic Systems and Technologies Conference; Apr 27, 1998 - Apr 30, 1998; Norfolk, VA; United States

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7

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Blade vortex interaction noise reduction techniques for a rotorcraft (1998)

Sankar, Lakshmi N. ; JanakiRam, Ram D. ; Hassan, Ahmed A. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: An active control device for reducing blade-vortex interactions (BVI) noise generated by a rotorcraft, such as a helicopter, comprises a trailing edge flap located near the tip of each of the rotorcraft's rotor blades. The flap may be actuated in any conventional way, and is scheduled to be actuated to a deflected position during rotation of the rotor blade through predetermined regions of the rotor azimuth, and is further scheduled to be actuated to a retracted position through the remaining regions of the rotor azimuth. Through the careful azimuth-dependent deployment and retraction of the flap over the rotor disk, blade tip vortices which are the primary source for BVI noise are (a) made weaker and (b) pushed farther away from the rotor disk (that is, larger blade-vortex separation distances are achieved).

Keywords: Aircraft Design, Testing and Performance

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8

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Deep Space 1 (fact sheet) (1998)

Fisher, D. K.

In: Other Sources

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Publication Date: 2018-06-08

Description: Exerting less force than does a single sheet of paper resting in your hand, Deep Space 1's ion propulsion system will slowly, yet continuously accelerate the spacecraft well beyond speeds attainable by conventional chemical propulsion.

Keywords: Spacecraft Propulsion and Power

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Deep Reactive-Ion Etched Micro Valves for Spacecraft Propulsion (1998)

Chakraborty, I. ; Tang, W. ; Pyle, D.

In: Other Sources

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Publication Date: 2018-06-08

Description: We report on the design, and test setup of a silicon diaphragm micro valve.

Keywords: Spacecraft Propulsion and Power

Type: NanoSpace 98, International Conference on Intergrated Nano/Microtechnology for Space Appl.; Houston, TX; United States

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XV-15 Tiltrotor Low Noise Terminal Area Operations (1998)

Marcolini, Michael A. ; Brieger, John T. ; Edwards, Bryan D. ; [et al.]

In: CASI

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Publication Date: 2018-06-05

Description: Acoustic data have been acquired for the XV-15 tiltrotor aircraft performing a variety of terminal area operating procedures. This joint NASA/Bell/Army test program was conducted in two phases. During Phase 1 the XV-15 was flown over a linear array of microphones, deployed perpendicular to the flight path, at a number of fixed operating conditions. This documented the relative noise differences between the various conditions. During Phase 2 the microphone array was deployed over a large area to directly measure the noise footprint produced during realistic approach and departure procedures. The XV-15 flew approach profiles that culminated in IGE hover over a landing pad, then takeoffs from the hover condition back out over the microphone array. Results from Phase 1 identify noise differences between selected operating conditions, while those from Phase 2 identify differences in noise footprints between takeoff and approach conditions and changes in noise footprint due to variation in approach procedures.

Keywords: Aircraft Design, Testing and Performance

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