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Autoignition of fuels (1979)

Spadaccini, L. J.

In: CASI

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Publication Date: 2016-06-07

Description: An autoignition test section and a premixing fuel injector developed to determine the autoignition characteristics of a variety of aircraft fuels are described. Parametric tests to map the ignition delay characteristics of Jet-A fuel were conducted at pressures of 10, 15, 20, 25, and 30 atm, inlet air temperatures up to 900K and fuel-air equivalence ratios of 0.3, 0.5, 0.7, and 1.0. Residence times in the range of 1 to 50 msec were obtained by interchanging spool pieces to create six different mixer/vaporizer lengths (6, 23, 53, 84, 99, and 130 cm) and by testing at two different airflow rates (0.5 and 1.0 kg/sec). The resulting free-stream velocities were in the range 20 to 100 m/sec. As expected, the results indicate that the ignition delay times decrease with increasing air temperature and pressure. Also, the data show that, for lean mixtures, ignition delay times decrease with increasing equivalence ratios.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA. Lewis Res. Center Premixed Prevaporized Combustor Technol. Forum; p 95-107

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2

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Deposit formation and heat transfer in hydrocarbon rocket fuels (1984)

Szetela, E. J. ; Spadaccini, L. J. ; Giovanetti, A. J.

In: Other Sources

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Publication Date: 2019-06-28

Description: An experimental research program was undertaken to investigate the thermal stability and heat transfer characteristics of several hydrocarbon fuels under conditions that simulate high-pressure, rocket engine cooling systems. The rates of carbon deposition in heated copper and nickel-plated copper tubes were determined for RP-1, propane, and natural gas using a continuous flow test apparatus which permitted independent variation and evaluation of the effect on deposit formation of wall temperature, fuel pressure, and fuel velocity. In addition, the effects of fuel additives and contaminants, cryogenic fuel temperatures, and extended duration testing with intermittent operation were examined. Corrosion of the copper tube surface was detected for all fuels tested; however, plating the insides of the tubes with nickel reduced deposit formation and eliminated corrosion in most cases. The lowest rates of carbon deposition were obtained for natural gas, and the highest rates were obtained for propane. Forced-convection heat transfer film coefficients were satisfactorily correlated using a Nusselt-Reynolds-Prandtl number equation for all the fuels tested.

Keywords: PROPELLANTS AND FUELS

Type: AIAA PAPER 84-0512

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3

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Autoignition characteristics of no. 2 diesel fuel (1981)

Tevelde, J. A. ; Spadaccini, L. J.

In: CASI

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Publication Date: 2019-06-28

Description: Parametric tests to map the ignition delay characteristics were conducted at pressures of 3, 4, and 5 atm, inlet air temperatures up to 1150 K and fuel air equivalence ratios ranging from 0.2 to 1.0. Ignition delay times in the range of 6 msec to 60 msec at freestream flow velocities ranging from 10 m/sec to 40 m/sec were obtained. The ignition delay times appeared to correlate with the inverse of pressure and the inverse exponent of temperature.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: NASA-CR-165315 , DOE/NASA/0066-2 , R81-915281-1

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4

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Autoignition characteristics of aircraft-type fuels (1980)

Tevelde, J. A. ; Spadaccini, L. J.

In: CASI

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Publication Date: 2019-06-27

Description: The ignition delay characteristics of Jet A, JP 4, no. 2 diesel, cetane and an experimental referee broad specification (ERBS) fuel in air at inlet temperatures up to 1000 K, pressures of 10, 15, 20, 25 and 30 atm, and fuel air equivalence ratios of 0.3, 0.5, 0.7 and 1.0 were mapped. Ignition delay times in the range of 1 to 50 msec at freestream flow velocities ranging from 20 to 100 m/sec were obtained using a continuous flow test apparatus which permitted independent variation and evaluation of the effect of temperature, pressure, flow rate, and fuel/air ratio. The ignition delay times for all fuels tested appeared to correlate with the inverse of pressure and the inverse exponent of temperature. With the exception of pure cetane, which had the shortest ignition delay times, the differences between the fuels tested did not appear to be significant. The apparent global activation energies for the typical gas turbine fuels ranged from 38 to 40 kcal/mole, while the activation energy determined for cetane was 50 kcal/mole. In addition, the data indicate that for lean mixtures, ignition delay times decrease with increasing equivalence ratio. It was also noted that physical (apparatus dependent) phenomena, such as mixing (i.e., length and number of injection sites) and airstream cooling (due to fuel heating, vaporization and convective heat loss) can have an important effect on the ignition delay.

Keywords: PROPELLANTS AND FUELS

Type: NASA-CR-159886 , R80-914617-1

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5

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Development of an experiment for determining the autoignition characteristics of aircraft-type fuels (1977)

Spadaccini, L. J.

In: CASI

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Publication Date: 2019-06-27

Description: An experimental test apparatus was developed to determine the autoignition characteristics of aircraft-type fuels in premixing prevaporizing passages at elevated temperatures and pressures. The experiment was designed to permit independent variation and evaluation of the experimental variables of pressure, temperature, flow rate, and fuel-air ratio. A comprehensive review of the autoignition literature is presented. Performance verification tests consisting of measurements of the ignition delay times for several lean fuel-air mixture ratios were conducted using Jet-A fuel at inlet air temperatures in the range 600 K to 900 K and pressures in the range 9 atm to 30 atm.

Keywords: PROPELLANTS AND FUELS

Type: NASA-CR-135329 , R78-912881-2

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6

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Deposit formation in hydrocarbon fuels (1982)

Szetela, E. J. ; Spadaccini, L. J. ; Roback, R.

In: Other Sources

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Publication Date: 2019-07-13

Description: The hydrocarbon fuels RP-1, commercial-grade propane, JP-7 and chemically pure propane were subjected to tests in a high pressure fuel coking apparatus in order to evaluate their thermal decomposition limits and carbon deposition rates in heated copper tubes. A fuel thermal stability parametric evaluation was conducted at 136-340 atmospheres, bulk fuel velocities of 6-30 m/sec, and tube wall temperatures of 422-811 K, and the effect of inside wall material on deposit formation was evaluated in tests using nickel-plated tubes. Results show RP-1 deposit formation at wall temperatures between 600 and 800 K, with peak deposit formation near 700 K. Substitution of deoxygenated JP-7 for RP-1 showed no improvement, and the carbon deposition rates for propane fuels were found to be higher than those of either of the kerosene fuels. Nickel plating of the tube walls significantly reduced RP-1 carbon deposition rates.

Keywords: PROPELLANTS AND FUELS

Type: ASME PAPER 82-GT-49 , International Gas Turbine Conference and Exhibit; Apr 18, 1982 - Apr 22, 1982; London

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7

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Applications of endothermic research technology to the high speed civil transport (1997)

Glickstein, M. R. ; Spadaccini, L. J.

In: Other Sources

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Publication Date: 2019-07-13

Description: The success of strategies for controlling emissions and enhancing performance in High Speed Research applications may be increased by more effective utilization of the heat sink afforded by the fuel in the vehicle thermal management system. This study quantifies the potential benefits associated with the use of supercritical preheating and endothermic cracking of jet fuel prior to combustion to enhance the thermal management capabilities of the propulsion systems in the High Speed Civil Transport (HSCT). A fuel-cooled thermal management system, consisting of plate-fin heat exchangers and a small auxiliary compressor, is defined for the HSCT, integrated with the engine, and an assessment of the effect on engine performance, weight, and operating cost is performed. The analysis indicates significant savings due a projected improvement in fuel economy, and the potential for additional benefit if the cycle is modified to take full advantage of all the heat sink available in the fuel.

Keywords: Aircraft Propulsion and Power

Type: JANNAF Airbreathing Propulsion Subcommittee Meeting; 1; 99-106; CPIA-Publ-666-Vol-1

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8

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Deposit formation and heat-transfer characteristics of hydrocarbon rocket fuels (1985)

Szetela, E. J. ; Giovanetti, A. J. ; Spadaccini, L. J.

In: Other Sources

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Publication Date: 2019-07-12

Keywords: PROPELLANTS AND FUELS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 22; 574-580

Format: text

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9

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Autoignition characteristics of aircraft-type fuels (1981)

Tevelde, J. A. ; Spadaccini, L. J.

In: Other Sources

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Publication Date: 2019-07-13

Description: An investigation was conducted of the ignition delay characteristics of five liquid hydrocarbon fuels in air. The test apparatus developed permitted independent variation and control of temperature, pressure, air flow rate, and fuel/air ratio in order that the effects of each parameter could be investigated independently. All of the fuels tested behaved in a predictable manner, that is, ignition delay time decreased as temperature, pressure, and fuel/air ratio increased. The results for the different fuels tested (Jet-A, MP-4, No. 2 diesel, ERBS, and cetane) were directly comparable, since it can be shown that the fuel spray characteristics from the multiple conical tube injector are relatively insensitive to small changes in fuel properties (viscosity, surface tension, and density).

Keywords: PROPELLANTS AND FUELS

Type: Spring Technical Meeting; Mar 23, 1981; Warren, MI

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10

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Deposit formation in hydrocarbon rocket fuels: Executive summary (1981)

Szetela, E. J. ; Spadaccini, L. J. ; Roback, R.

In: CASI

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Publication Date: 2019-07-13

Description: An experimental program was conducted to study deposit formation in hydrocarbon fuels under flow conditions that exist in high-pressure, rocket engine cooling systems. A high pressure fuel coking test apparatus was designed and developed and was used to evaluate thermal decomposition (coking) limits and carbon deposition rates in heated copper tubes for two hydrocarbon rocket fuels, RP-1 and commercial-grade propane. Tests were also conducted using JP-7 and chemically-pure propane as being representative of more refined cuts of the baseline fuels. A parametric evaluation of fuel thermal stability was performed at pressures of 136 atm to 340 atm, bulk fuel velocities in the range 6 to 30 m/sec, and tube wall temperatures in the range 422 to 811K. In addition, the effect of the inside wall material on deposit formation was evaluated in selected tests which were conducted using nickel-plated tubes. The results of the tests indicated that substantial deposit formation occurs with RP-1 fuel at wall temperatures between 600 and 800K, with peak deposit formation occurring near 700K. No improvements were obtained when de-oxygenated JP-7 fuel was substituted for RP-1. The carbon deposition rates for the propane fuels were generally higher than those obtained for either of the kerosene fuels at any given wall temperature. There appeared to be little difference between commercial-grade and chemically-pure propane with regard to type and quantity of deposit. The results of tests conducted with RP-1 indicated that the rate of deposit formation increased slightly with pressure over the range 136 atm to 340 atm. Finally, plating the inside wall of the tubes with nickel was found to significantly reduce carbon deposition rates for RP-1 fuel.

Keywords: PROPELLANTS AND FUELS

Type: NASA-CR-165492 , NAS 1.26:165492 , P81-915216-2

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