Experimental performance of ammonia-charged micro heat pipe array for energy saving

Ya'nan Zhao*, Lingjiao Wei, Jinghui Cai, Jingtao Liang

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

11 Citations (Scopus)

Abstract

Energy is required to be transported effectively during energy exploration, storage and utilization. Micro heat pipe array is a high efficient heat transfer device. Ammonia is promising working medium for micro heat pipe array due to its outstanding thermophysical parameters. However, there are no ammonia-charged micro heat pipe arrays being investigated up to now. In this paper, ammonia-charged micro heat pipe arrays were experimentally studied to enhance the heat transfer capability for energy saving and efficient utilization in practical applications. With dimensions of 520 mm × 20 mm × 2 mm, the micro heat pipe array reached a high heat transfer capability of 175 W, corresponding to an equivalent thermal conductivity of 7.06 × 105 W/(m∙K). Furthermore, the influence of the tilt angle of the micro heat pipe array on the heat transfer characteristics was studied and analyzed. With the increase of the tilt angle, it tended to achieve higher heat transfer capacity due to higher pressure head generated by gravity. Moreover, temperature tolerance test of a shorter micro heat pipe array was conducted and it could operate steadily and reliably under 120 °C, corresponding to a pressure of 92 bar. The experimental results demonstrated that ammonia could make great improvements for energy systems based on micro heat pipe arrays in various applications.

Original languageEnglish
Article number116525
JournalApplied Thermal Engineering
Volume186
DOIs
Publication statusPublished - 5 Mar 2021
Externally publishedYes

Keywords

  • Ammonia
  • Energy saving
  • Heat transfer
  • Micro heat pipe array
  • Thermal management

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Zhao, Y., Wei, L., Cai, J., & Liang, J. (2021). Experimental performance of ammonia-charged micro heat pipe array for energy saving. Applied Thermal Engineering, 186, Article 116525. https://doi.org/10.1016/j.applthermaleng.2020.116525