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Experimental Investigation of Thermal-Hydraulic Performance of Externally Finned Tubes

Author

Listed:
  • Aigul Zhanuzakovna Amrenova

    (Department of Thermal Power Plants, Institute of Heat Power Engineering and Control Systems, Almaty University of Power Engineering and Telecommunications, Almaty 050013, Kazakhstan)

  • Abay Mukhamediyarovich Dostiyarov

    (Department of Thermal Power Plants, Institute of Heat Power Engineering and Control Systems, Almaty University of Power Engineering and Telecommunications, Almaty 050013, Kazakhstan)

  • Iliya Krastev Iliev

    (Department of Heat, Hydraulics and Environmental Engineering, “Angel Kanchev” University of Ruse, P.O. Box 7017 Ruse, Bulgaria)

  • Ayaulym Konysbekovna Yamanbekova

    (Department of Thermal Power Plants, Institute of Heat Power Engineering and Control Systems, Almaty University of Power Engineering and Telecommunications, Almaty 050013, Kazakhstan)

  • Rakhimzhan Kabievich Orumbayev

    (Department of Thermal Power Plants, Institute of Heat Power Engineering and Control Systems, Almaty University of Power Engineering and Telecommunications, Almaty 050013, Kazakhstan)

  • Dias Raybekovich Umyshev

    (Department of Thermal Power Plants, Institute of Heat Power Engineering and Control Systems, Almaty University of Power Engineering and Telecommunications, Almaty 050013, Kazakhstan)

Abstract

Currently there are various concepts of heat transfer intensification, on the basis of which methods have been developed to increase the heat transfer coefficient in the channels of heat exchange surfaces, which do not lead to significant additional energy costs for flow movement. The article presents the results of an experimental study on the influence of various types of fins on heat transfer processes and hydraulic resistance. The results obtained show that fins in the form of crosses and triangles are the most efficient in terms of heat transfer. However, they create the greatest hydraulic resistance. The largest value of the Nusselt number is relevant for fins type 5 and 6 due to a more active effect on the core of the flow owing to its shape. Fins 7 and 4 have the minimal influence, since they have the ‘smoothest’ shape. Studies have shown that with Reynolds numbers in the range of 13,000–32,000, fins of type 4 and 7 show the greatest resistance. It is shown that it is possible to switch from pipes without fins to pipes with fins by including the coefficient B in the Nusselt equation having a range of 0.03–0.061. It is shown that under certain conditions, heat transfer when using fins can decrease with increasing Reynolds number.

Suggested Citation

  • Aigul Zhanuzakovna Amrenova & Abay Mukhamediyarovich Dostiyarov & Iliya Krastev Iliev & Ayaulym Konysbekovna Yamanbekova & Rakhimzhan Kabievich Orumbayev & Dias Raybekovich Umyshev, 2023. "Experimental Investigation of Thermal-Hydraulic Performance of Externally Finned Tubes," Sustainability, MDPI, vol. 15(12), pages 1-25, June.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:12:p:9448-:d:1169350
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    References listed on IDEAS

    as
    1. Mateusz Marcinkowski & Dawid Taler & Jan Taler & Katarzyna Węglarz, 2022. "Air-Side Nusselt Numbers and Friction Factor’s Individual Correlations of Finned Heat Exchangers," Energies, MDPI, vol. 15(15), pages 1-17, August.
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