Experimental and Numerical Investigations on Thermal-Hydraulic Performance of Three-Dimensional Overall Jagged Internal Finned Tubes

Huang, Shufeng and Deng, Mingjiang and Chen, Zhixin and Yang, Dayong and Xu, Yingshuai and Lan, Ning (2024) Experimental and Numerical Investigations on Thermal-Hydraulic Performance of Three-Dimensional Overall Jagged Internal Finned Tubes. Micromachines, 15 (4). p. 513. ISSN 2072-666X

[thumbnail of micromachines-15-00513.pdf] Text
micromachines-15-00513.pdf - Published Version

Download (13MB)

Abstract

To satisfy the demand for efficient heat transfer, a novel three-dimensional overall jagged internal finned tube (3D-OJIFT) was fabricated, using the rolling–ploughing/extruding method. The thermal performance of the 3D-OJIFT were studied and compared in experiments and three-dimensional numerical simulations. The RNG k-ε turbulence model is well verified with the experimental results. By analyzing the distributions of velocity, temperature, and turbulence kinetic energy, it was found that the 3D-OJIFT destroyed the development of the velocity and thermal boundary layers, increased the turbulence disturbance, and reduced the temperature gradient, thus improving the heat transfer. The influences of the jagged height and jagged spiral angle of the 3D-OJIFT are discussed. The Nu and f increased as the jagged height of the 3D-OJIFT increased. The Nusselt number of the 3D-OJIFT was 1.67–2.04 times the value for the smooth tube. In addition, the comprehensive heat transfer performance of the 3D-OJIFT improved after increasing the jagged spiral angle. Compared with conventional internal helical-finned tubes and other reinforcement structures reported in the literature, the 3D-OJIFT demonstrated better comprehensive heat transfer performance. Finally, empirical correlations of the 3D-OJIFT were obtained.

Item Type: Article
Subjects: Euro Archives > Multidisciplinary
Depositing User: Managing Editor
Date Deposited: 12 Apr 2024 06:29
Last Modified: 12 Apr 2024 06:29
URI: http://publish7promo.com/id/eprint/4644

Actions (login required)

View Item
View Item