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Strategies to protect ram accelerator projectiles from in-tube gasdynamic heating (2000)

Bogdanoff, D. W.

EDP Sciences

In: Journal de Physique IV - Proceedings. 2000; 10(PR11): Pr11-185-Pr11-195. Published 2000 Nov 01. doi: 10.1051/jp4:20001119.

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Publication Date: 2000-11-01

Print ISSN: 1155-4339

Electronic ISSN: 1764-7177

Topics: Physics

Published by EDP Sciences

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2

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Initiation of combustion in the thermally choked ram accelerator (1992)

Knowlen, C. ; Bogdanoff, D. W. ; Burnham, E. A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The methodology for initiating stable combustion in a ram accelerator operating in the thermally choked mode is presented in this paper. The ram accelerator is a high velocity ramjet-in-tube projectile launcher whose principle of operation is similar to that of an airbreathing ramjet. The subcaliber projectile travels supersonically through a stationary tube filled with a premixed combustible gas mixture. In the thermally choked propulsion mode subsonic combustion takes place behind the base of the projectile and leads to thermal choking, which stabilizes a normal shock system on the projectile, thus producing forward thrust. Projectiles with masses in the 45-90 g range have been accelerated to velocities up to 2650 m/sec in a 38 mm bore, 16 m long accelerator tube. Operation of the ram accelerator is started by injecting the projectile into the accelerator tube at velocities in the 700 - 1300 m/sec range by means of a conventional gas gun. A specially designed obturator, which seals the bore of the gun during this initial acceleration, enters the ram accelerator together with the projectile. The interaction of the obturator with the propellant gas ignites the gas mixture and establishes stable combustion behind the projectile.

Keywords: GROUND SUPPORT SYSTEMS AND FACILITIES (SPACE)

Type: In: Shock waves; Proceedings of the 18th International Symposium, Sendai, Japan, July 21-26, 1991. Vol. 1 (A93-45451 19-34); p. 623-630.

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Improvement of pump tubes for gas guns and shock tube drivers (1990)

Bogdanoff, D. W.

In: Other Sources

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Publication Date: 2011-08-19

Description: In a pump tube, a gas is mechanically compressed, producing very high pressures and sound speeds. The intensely heated gas produced in such a tube can be used to drive light gas guns and shock tubes. Three concepts are presented that have the potential to allow substantial reductions in the size and mass of the pump tube to be achieved. The first concept involves the use of one or more diaphragms in the pump tube, thus replacing a single compression process by multiple, successive compressions. The second concept involves a radical reduction in the length-to-diameter ratio of the pump tube and the pump tube piston. The third concept involves shock heating of the working gas by high explosives in a cyclindrical geometry reusable device. Preliminary design analyses are performed on all three concepts and they appear to be quite feasible. Reductions in the length and mass of the pump tube by factors up to about 11 and about 7, respectively, are predicted, relative to a benchmark conventional pump tube.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA Journal (ISSN 0001-1452); 28; 483-491

Format: text

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4

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New higher-order Godunov code for modelling performance of two-stage light gas guns (1995)

Bogdanoff, D. W. ; Miller, R. J.

In: CASI

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Publication Date: 2019-06-28

Description: A new quasi-one-dimensional Godunov code for modeling two-stage light gas guns is described. The code is third-order accurate in space and second-order accurate in time. A very accurate Riemann solver is used. Friction and heat transfer to the tube wall for gases and dense media are modeled and a simple nonequilibrium turbulence model is used for gas flows. The code also models gunpowder burn in the first-stage breech. Realistic equations of state (EOS) are used for all media. The code was validated against exact solutions of Riemann's shock-tube problem, impact of dense media slabs at velocities up to 20 km/sec, flow through a supersonic convergent-divergent nozzle and burning of gunpowder in a closed bomb. Excellent validation results were obtained. The code was then used to predict the performance of two light gas guns (1.5 in. and 0.28 in.) in service at the Ames Research Center. The code predictions were compared with measured pressure histories in the powder chamber and pump tube and with measured piston and projectile velocities. Very good agreement between computational fluid dynamics (CFD) predictions and measurements was obtained. Actual powder-burn rates in the gun were found to be considerably higher (60-90 percent) than predicted by the manufacturer and the behavior of the piston upon yielding appears to differ greatly from that suggested by low-strain rate tests.

Keywords: NUMERICAL ANALYSIS

Type: NASA-TM-110363 , A-950086 , NAS 1.15:110363

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Aerothermodynamic Testing of Aerocapture and Planetary Probe Geometries in Hypersonic Ballistic-Range Environments (2005)

Olejniczak, J. ; Wilder, M. C. ; Bogdanoff, D. W. ; [et al.]

In: CASI

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Publication Date: 2018-06-06

Description: A viewgraph presentation on aerothermodynamic testing of aerocapture and planetary probe design methods in hypersonic ballistic range environments is shown. The topics include: 1) Ballistic Range Testing; 2) NASA-Ames Hypervelocity Free Flight Facility; and 3) Representative Results.

Keywords: Space Sciences (General)

Type: 2nd International Planetary Probe Workshop; NASA/CP-2004-213456

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Impinging jet separators for liquid metal magnetohydrodynamic power cycles (1973)

Bogdanoff, D. W.

In: CASI

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Publication Date: 2019-06-27

Description: In many liquid metal MHD power, cycles, it is necessary to separate the phases of a high-speed liquid-gas flow. The usual method is to impinge the jet at a glancing angle against a solid surface. These surface separators achieve good separation of the two phases at a cost of a large velocity loss due to friction at the separator surface. This report deals with attempts to greatly reduce the friction loss by impinging two jets against each other. In the crude impinging jet separators tested to date, friction losses were greatly reduced, but the separation of the two phases was found to be much poorer than that achievable with surface separators. Analyses are presented which show many lines of attack (mainly changes in separator geometry) which should yield much better separation for impinging jet separators).

Keywords: AUXILIARY SYSTEMS

Type: NASA-CR-136552 , JPL-TM-33-621

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Techniques for Transition and Surface Temperature Measurements on Projectiles at Hypersonic Velocities- A Status Report (2005)

Wilder, M. C. ; Bogdanoff, D. W.

In: CASI

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Publication Date: 2019-08-16

Description: A research effort to advance techniques for determining transition location and measuring surface temperatures on graphite-tipped projectiles in hypersonic flight in a ballistic range is described. Projectiles were launched at muzzle velocities of approx. 4.7 km/sec into air at pressures of 190-570 Torr. Most launches had maximum pitch and yaw angles of 2.5-5 degrees at pressures of 380 Torr and above and 3-6 degrees at pressures of 190-380 Torr. Arcjet-ablated and machined, bead-blasted projectiles were launched; special cleaning techniques had to be developed for the latter class of projectiles. Improved methods of using helium to remove the radiating gas cap around the projectiles at the locations where ICCD (intensified charge coupled device) camera images were taken are described. Two ICCD cameras with a wavelength sensitivity range of 480-870 nm have been used in this program for several years to obtain images. In the last year, a third camera, with a wavelength sensitivity range of 1.5-5 microns [in the infrared (IR)], has been added. ICCD and IR camera images of hemisphere nose and 70 degree sphere-cone nose projectiles at velocities of 4.0-4.7 km/sec are presented. The ICCD images clearly show a region of steep temperature rise indicative of transition from laminar to turbulent flow. Preliminary temperature data for the graphite projectile noses are presented.

Keywords: Launch Vehicles and Launch Operations

Type: NASA/TM-2005-212831 , A-0412610

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8

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Godunov computational fluid dynamics method for extreme flow velocities and any equation of state (1989)

Bogdanoff, D. W. ; Brackett, D. C.

In: Other Sources

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Publication Date: 2019-07-12

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA Journal (ISSN 0001-1452); 27; 909-917

Format: text

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9

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Optimization Study of the Ames 0.5 Two-Stage Light Gas Gun (1996)

Bogdanoff, D. W.

In: CASI

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Publication Date: 2019-07-10

Description: There is a need for more faithful simulation of space debris impacts on various space vehicles. Space debris impact velocities can range up to 14 km/sec and conventional two-stage light gas guns with moderately heavy saboted projectiles are limited to launch velocities of 7-8 km/sec. Any increases obtained in the launch velocities will result in more faithful simulations of debris impacts. It would also be valuable to reduce the maximum gun and projectile base pressures and the gun barrel erosion rate. In this paper, the results of a computational fluid dynamics (CFD) study designed to optimize the performance of the NASA Ames 0.5' gun by systematically varying seven gun operating parameters are reported. Particularly beneficial effects were predicted to occur if (1) the piston mass was decreased together with the powder mass and the hydrogen fill pressure and (2) the pump tube length was decreased. The optimum set of changes in gun operating conditions were predicted to produce an increase in muzzle velocity of 0.7-1.0 km/sec, simultaneously with a substantial decrease in gun erosion. Preliminary experimental data have validated the code predictions. Velocities of up to 8.2 km/sec with a 0.475 cm diameter saboted aluminum sphere have been obtained, along with large reductions in gun erosion rates.

Keywords: Astronautics (General)

Type: NASA-TM-1996-110386 , NAS 1.15:110386 , A-961331

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Improving the Performance of Two-Stage Gas Guns By Adding a Diaphragm in the Pump Tube (1995)

Miller, Robert J. ; Bogdanoff, D. W.

In: CASI

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Publication Date: 2019-07-13

Description: Herein, we study the technique of improving the gun performance by installing a diaphragm in the pump tube of the gun. A CFD study is carried out for the 0.28 in. gun in the Hypervelocity Free Flight Radiation (HFF RAD) range at the NASA Ames Research Center. The normal, full-length pump tube is studied as well as two pump tubes of reduced length (approximately 75% and approximately 33% of the normal length). Significant improvements in performance are calculated to be gained for the reduced length pump tubes upon the addition of the diaphragm. These improvements are identified as reductions in maximum pressures in the pump tube and at the projectile base of approximately 20%, while maintaining the projectile muzzle velocity or as increases in muzzle velocity of approximately 0.5 km/sec while not increasing the maximum pressures in the gun. Also, it is found that both guns with reduced pump tube length (with diaphragms) could maintain the performance of gun with the full length pump tube without diaphragms, whereas the guns with reduced pump tube lengths without diaphragms could not. A five-shot experimental investigation of the pump tube diaphragm technique is carried out for the gun with a pump tube length of 75% normal. The CFD predictions of increased muzzle velocity are borne out by the experimental data. Modest, but useful muzzle velocity increases (2.5 - 6%) are obtained upon the installation of a diaphragm, compared to a benchmark shot without a diaphragm.

Keywords: Mechanical Engineering

Type: NASA/CR-95-207229 , NAS 1.26:207229 , International Journal of Impact Engineering (ISSN 0734-743X); 17; 81-92

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