Deposit formation and heat transfer in hydrocarbon rocket fuelsAn 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.
Document ID
19840035355
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Giovanetti, A. J. (United Technologies Research Center East Hartford, CT, United States)
Spadaccini, L. J. (United Technologies Research Center East Hartford, CT, United States)
Szetela, E. J. (United Technologies Research Center East Hartford, CT, United States)