Experimental study of an ammonia loop heat pipe with a flat disk-shaped evaporator using a bimetal wall

Abstract

A loop heat pipe (LHP) with a flat disk-shaped evaporator 40mm in diameter and 18mm in thickness has been developed and tested. The device was made of stainless steel and equipped with a main nickel biporous wick and a secondary wick made of a porous material with a low thermal conductivity. The flat evaporator wall being heated was made of a “stainless steel – copper” bimetal. The working fluid was ammonia. The LHP thermal characteristics were investigated at different orientations with slopes from −90° to +90° and heat sink temperatures in the range from 0 to 40°C. A maximum heat load of 300W (23.9W/cm2) at an evaporator temperature of no more than 80°C was achieved at both a favorable and a horizontal orientation of the LHP. A minimum thermal resistance of the evaporator of 0.067°C/W was obtained at a heat load of 220W. The corresponding value of the LHP thermal resistance was equal to 0.084°C/W. It has been found that under changes of orientation in the whole range of slopes the maximum heat load changes no more than 30%. It is shown that a heat source temperature not more than 85°C can be ensured in all test conditions at heat loads up to 140W.