The Effect of Variable Gravity on the Cooling Performance of a Partially-Confined FC-72 Spray

Abstract

This thesis discusses the effects of a variable-gravity environment on the performance of a subcooled partially-confined spray. An experiment, consisting of a test chamber, the associated flow loops, and instrumentation, was fabricated and flown on the NASA Reduced-Gravity Testing Platform. This modified KC-135 aircraft followed a parabolic flight path to provide various acceleration levels. The spray chamber contained two opposing nozzles spraying onto Thick Film Resistor (TFR) heaters, which were mounted on insulating glass pedestals. Only the upward facing heater was used during this testing. Thermocouples under the heater in the glass pedestal were used to determine the heater surface temperature. The glass pedestals were surrounded by an annular sump system, which was used to collect and remove the cooling fluid from the test chamber. The fluid used for this testing was FC-72, which is a non-toxic, non-flammable, and non-reactive refrigerant. Due to its dielectric nature, FC-72 was sprayed directly onto the electric thick film heaters. The parametric ranges of this experiment were as follows: Heat flux to the spray, 21.1 less than or equal to q"sp less than or equal to 69.0 Watts/(square centimeter); acceleration field, 0.15 less than or equal to "a" less than or equal to 1.80 grams; coolant volumetric flow rate, 6.18 less than or equal to V less than or equal to 8.94 milliliters/second; and coolant subcooling, 23.1 less than or equal to delta-T(sub sc) less than or equal to 31.7 degrees Kelvin. The heat fluxes tested were below the critical heat flux q"CHF. The wall superheat delta-T(sub sat) = T(sub s) - T(sub sat) was found to increase with heat input and acceleration, and decrease with subcooling and volumetric flow rate.

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 2009

Accession Number

ADA506284

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