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Numerical Study of Heated Tube Arrays in the Laminar Free Convection Heat Transfer

Author

Listed:
  • Zuzana Brodnianská

    (Faculty of Technology, Technical University in Zvolen, Študentská 26, 960 01 Zvolen, Slovakia)

  • Stanislav Kotšmíd

    (Faculty of Technology, Technical University in Zvolen, Študentská 26, 960 01 Zvolen, Slovakia)

Abstract

Laminar free convection heat transfer from a heated cylinder and tube arrays is studied numerically to obtain the local and average Nusselt numbers. To verify the numerical simulations, the Nusselt numbers for a single cylinder were compared to other authors for the Rayleigh numbers of 10 3 and 10 4 . Furthermore, the vertically arranged heated tube arrays 4 × 1 and 4 × 2 with the tube ratio spacing S V /D = 2 were considered, and obtained average Nusselt numbers were compared to the existing correlating equations. A good agreement of the average Nusselt numbers for the single cylinder and the bottom tube of the 4 × 1 tube array is proved. On the other hand, the bottom tubes of the 4 × 2 tube array affect each other, and the Nusselt numbers have a different course compared to the single cylinder. The temperature fields for the tube array 4 × 4 in basic, concave, and convex configurations are studied, and new correlating equations were determined. The simulations were done for the Rayleigh numbers in the range of 1.3 × 10 4 to 3.7 × 10 4 with a tube ratio spacing S/D of 2, 2.5, and 3. On the basis of the results, the average Nusselt numbers increase with the Rayleigh numbers and tube spacing increasing. The average Nusselt number and total heat flux density for the convex configuration increase compared to the base one; on the other hand, the average Nusselt number decreases for the concave one. The results are applicable to the tube heaters constructional design in order to heat the ambient air effectively.

Suggested Citation

  • Zuzana Brodnianská & Stanislav Kotšmíd, 2020. "Numerical Study of Heated Tube Arrays in the Laminar Free Convection Heat Transfer," Energies, MDPI, vol. 13(4), pages 1-24, February.
  • Handle: RePEc:gam:jeners:v:13:y:2020:i:4:p:973-:d:323595
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    Cited by:

    1. Mikhail A. Sheremet, 2021. "Numerical Simulation of Convective-Radiative Heat Transfer," Energies, MDPI, vol. 14(17), pages 1-3, August.

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