Scientific Reports (Jan 2024)

Enhancing heat transfer at low temperatures by laser functionalization of the inner surface of metal pipes

  • Daniel Holder,
  • Alexander Peter,
  • Marc Kirsch,
  • Sergio Cáceres,
  • Rudolf Weber,
  • Volkher Onuseit,
  • Rudi Kulenovic,
  • Jörg Starflinger,
  • Thomas Graf

DOI
https://doi.org/10.1038/s41598-024-53062-8
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract The latent heat transfer during vapour condensation in the condenser section of passive heat transport devices such as the two-phase closed thermosiphon is limited by film condensation. Dropwise condensation provides an increase of the heat transfer coefficient by up to one order of magnitude and can be achieved with a water-repellant surface. The inner surface of pipes made from stainless steel was functionalized by laser surface texturing with ultrashort laser pulses and subsequent storage in a liquid containing long-chained hydrocarbons. The pipes were separated into half-pipes by wire eroding to enable laser texturing of the inner surface, and were then joined by electron beam welding after laser texturing. As a result, superhydrophobic and water-repellent surfaces with a contact angle of 153° were obtained on the inner surface of the pipes with a length of up to 1 m. The functionalized pipes were used in the condenser section of a two-phase closed thermosiphon to demonstrate a heat transfer rate of 0.92 kW at 45 °C, which is approximately three times the heat transfer rate of 0.31 kW of a smooth reference pipe.