Experimental investigation of thermal characteristics on a new loop pipe model for passive cooling system

Mukhsinun Hadi Kusuma, Giarno, Dedy Haryanto, Sumantri Hatmoko, Yoyok Dwi Setyo Pambudi, Sofia Loren ButarButar, Nandy Putra, Nursinta Adi Wahanani, Berkah Fajar Tamtono Kiono, Khoiri Rozi, Bambang Ariantara, Anhar Riza Antariksawan

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

The heat pipes have the potential to be used as a passive cooling system (PCS) in thermal installations including nuclear facilities. In that context, this experimental study is correlated with the research on the new type of Loop Heat Pipe (LHP) as the PCS. This work aimed to study the characteristics of LHP with capillary pipe wick. The experiments involved varying the pool water temperature as evaporator heat load at 35, 45, 55, and 65 °C, filling ratio charged at 20, 40, 60, 80, and 100 % of LHP evaporator volume, and the flow air velocity to the fins in the condenser at 0, 1, 1.5, 2, and 2.5 m/s. The LHP was operated in sub-atmospheric conditions with an initial pressure of 2666.4 Pa. The results show that LHP has a stable two-phase natural circulation under all variations of heat loads, filling ratios, and air velocities tested. The results also show that display excellent thermal performance with the lowest thermal resistance of 0.0524 ± 0.0004 °C/W operating at the highest water temperature source, the highest filling ratio, and the highest air velocity. It is concluded that the LHP model with capillary pipe wick has similar thermal characteristics to other types of heat pipes. This wick function effectively in preventing vapor flow from the evaporator toward the condenser, and otherwise it can facilitate as condensate path from the condenser to evaporator. The stable two-phase natural circulation stability analysis showed that the LHP with capillary wick has very good thermal performance as heat absorber and heat releaser.

Original languageEnglish
Article number102555
JournalThermal Science and Engineering Progress
Volume50
DOIs
Publication statusPublished - May 2024

Keywords

  • Capillary pipe wick
  • Loop heat pipe
  • Passive cooling system
  • Stability

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