Accession Number : ADA289248

Title :   Experimental Investigation of the Effects of Relative Physical Orientation Between Evaporator and Condenser for a Loop Heat Pipe.

Descriptive Note : Master's thesis,

Corporate Author : AIR FORCE INST OF TECH WRIGHT-PATTERSON AFB OH SCHOOL OF ENGINEERING

Personal Author(s) : Thompson, Brad R.

PDF Url : ADA289248

Report Date : DEC 1994

Pagination or Media Count : 83

Abstract : This research examined the effects on performance of varying angular orientation and height differences between evaporator and condenser for a loop heat pipe. Performance was defined as the difference in temperature between evaporator and condenser (DELTA T). The pipe was evaluated at varying input power (Qin) for: varying evaporator and condenser angles, different coolant temperatures, and varying relative height differences. All analysis included only steady state operation. The performance was influenced by condenser angles, with an optimal condenser angle for best performance being +45 degrees from horizontal. Additionally, the evaporator angles were found to influence performance only at low Qin and low coolant temperatures. For high Qin' performance was independent of evaporator angle. For small Qin the DELTA T increased (poorer performance) with decreasing coolant temperature. However, for high Qin the DELTA T was independent of coolant temperature. For small Qin the DELTA T increased with increasing heights of evaporator over condenser. However, for high Qin the DELTA T was independent of the height difference. Additionally, pipe operation was sensitive to the rate of decrease of Qin. Finally, an unexplained anomaly shows the pipe to operate at two different DELTA T values for a given heat input.

Descriptors :   *PIPING SYSTEMS, *HEAT PIPES, HEAT TRANSFER, ANGLES, TEMPERATURE, THESES, COOLANTS, HEIGHT, EVAPORATORS, CONDENSERS(LIQUIFIERS), HEAT LOSS.

Subject Categories : Air Condition, Heating, Lighting & Ventilating
      Thermodynamics

Distribution Statement : APPROVED FOR PUBLIC RELEASE