Abstract

A parallel looped thermosyphon is newly developed to improve heat transfer defects of a conventional thermosyphon. The purpose of this study is to examine experimentally and to evaluate heat transfer performance of the new thermosyphon. Experiments are conducted with water working fluid at charge ratios of 0.5 and 0.9 and coolant temperatures of 25 to 50℃. Major findings are follows: The higher coolant temperature produces the higher critical heat flux. The heat transfer coefficient at 0.9 of the charge ratio higher than that at 0.5.

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