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Investigating Enhanced Convection Heat Transfer in 3D Micro-Ribbed Tubes Using Inverse Problem Techniques

Author

Listed:
  • Zhihui Wang

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China)

  • Xuguang Yang

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China)

  • Xiaohua Gu

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China
    State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai 200051, China)

  • Qingyong Su

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China)

  • Yan Liu

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China)

  • Xiujin He

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China)

  • Zhiwei Li

    (School of Energy and Building Environment, Guilin University of Aerospace Technology, Guilin 541004, China)

Abstract

The improved heat dissipation observed in 3D micro-ribbed tubes is primarily influenced by the intricate interplay of multiple structural parameters. Nevertheless, research into the coupling mechanisms of these multi-structural parameters remains constrained by the absence of effective methodology in numerical solutions. In the present work, a new 3D micro-rib structure based on discrete adjoint method is established. Firstly, the research examines the interplay of different parameters (such as arrangement, relative roughness height, angle of attack, and circumferential rows) on the thermo-hydraulic performance. It is noted that the heat transfer efficiency is notably impacted by the relative roughness height. And the arrangement methodology dictates the optimal positioning for heat transfer efficiency. An increase in the number of circumferential rows enhances fluid mixing, while the angle of attack plays a crucial role in the formation of longitudinal vortices. Secondly, the coupling optimization technique is employed to obtain the optimal structure featuring non-uniform relative roughness height by the developed numerical solution. Overall, in comparison to the smooth tube, the optimized ribbed tube exhibits a remarkable 64.9% enhancement in performance evaluation criteria. Finally, a notable enhancement of 10.65–22.78% is observed when comparing with the prevailing micro-rib structures.

Suggested Citation

  • Zhihui Wang & Xuguang Yang & Xiaohua Gu & Qingyong Su & Yan Liu & Xiujin He & Zhiwei Li, 2024. "Investigating Enhanced Convection Heat Transfer in 3D Micro-Ribbed Tubes Using Inverse Problem Techniques," Energies, MDPI, vol. 17(20), pages 1-20, October.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:20:p:5102-:d:1498440
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    References listed on IDEAS

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    1. Tao Min & Xing Chen & Yao Sun & Qiang Huang, 2014. "A Numerical Approach to Solving an Inverse Heat Conduction Problem Using the Levenberg-Marquardt Algorithm," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-11, June.
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