OPTIMALIZATION OF INTEGRAL FIN TUBE IN OUTSIDE CONDENSATION BASED ON FLOODING ANGLE

OPTIMALISASI INTEGRAL FIN TUBE PADA SISTEM KONDENSASI LUAR BERDASARKAN FLOODING ANGLE

Authors

  • Zulfa Khalida POLINEMA
  • Kartika Candra Dewi
  • Siti Musyarrofah
  • Hadi Rahmad Politeknik Negeri Malang
  • Yulia Puspa

DOI:

https://doi.org/10.33795/j-meeg.v2i2.4731

Keywords:

Flooded, Integral Fin Tube, Heat transfer, Unflooded

Abstract

Increasing heat transfer in condensation for low surface tension fluid is dominated by using extended area (fin). One of the extended area on pipe is integral fin tube. Designing of integral fin tube should be conducted due to generate optimal condition such as designing fin spacing. Fin spacing has significantly impacted  to heat transfer enhancement. Whereas the material of pipe is copper since has higher heat conductivity than others and fluid working is methanol. To predict optimal geometry of integral fin tube is conducted by using mathematical simulation by dividing area into flooded and unflooded. The active area or unflooded area represents the heat transfer area adn enhancement. In this experiment is found that the optimum fin spasing is 1 mm

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Published

16-11-2023

How to Cite

Khalida, Z., Candra Dewi, K., Musyarrofah, S., Rahmad, hadi, & Puspa, Y. (2023). OPTIMALIZATION OF INTEGRAL FIN TUBE IN OUTSIDE CONDENSATION BASED ON FLOODING ANGLE: OPTIMALISASI INTEGRAL FIN TUBE PADA SISTEM KONDENSASI LUAR BERDASARKAN FLOODING ANGLE . Jurnal Teknik Mesin, 2(2), 230–236. https://doi.org/10.33795/j-meeg.v2i2.4731

Issue

Vol. 2 No. 2 (2023): JOURNAL OF MECHANICAL ENGINEERING

Section

Articles