Investigation of Wickless Heat Pipe Performance Filled With R134a

Authors

Huthaifa Ahmed Abed
Technical Engineering Collage / the Midland Technical University/ Baghdad- Iraq.
Majid H. Majeed
Prof.dr. Technical Engineering Collage / the Midland Technical University/ Baghdad- Iraq.
Ahmad Q. Mohammad
Prof.dr. Technical Engineering Collage / the Midland Technical University/ Baghdad- Iraq.

Abstract

The wickless heat pipe (theroosyphon) is ordinate of three divisions the condenser, evaporator and insulated region (adiabatic region). In this work, the condenser and evaporator regions are made of copper tube with a length of 300 mm, for each an exterior diameter of 28.2 mm and an interior diameter of 26.4 mm. While the insulated region has a length of 400 mm and an exterior diameter of 28.2 mm. The evaporator region of the heat pipe bounded by a coiled heat source that represented the heat source. The condenser is encapsulated in a plastic cylinder to accommodate the flow of the cooling water. Thermosyphon has been filled by R- 134a working fluid. The effect of heat input, filling ratio and sink temperature were all tested and measurement. The results showed that the heat transfer performance increases when the applied energy to the evaporator increases while the total heat transfer efficiency of the heat pipe increases the gradient temperature between the medium of the evaporator and the condenser increases. The optimum fill rate is 119 % (250g), the sink temperature is 20°C, and it has been found to be suitable for optimum heat pipe performance.