Open Access

ARTICLE

Experimental and Numerical Investigation of the Performance of Turbulent Heat Transfer in Tubes with Different Cross-Sectioned Wire Coils

Ali Shokor Golam^*
Department of Mechanical Engineering, College of Engineering, Mustansiriyah University, Baghdad, Iraq
* Corresponding Author: Ali Shokor Golam. Email:
(This article belongs to the Special Issue: Passive Heat Transfer Enhancement for Single Phase and Multi-Phase Flows)

Frontiers in Heat and Mass Transfer https://doi.org/10.32604/fhmt.2024.050218

Received 31 January 2024; Accepted 18 March 2024; Published online 24 April 2024

Abstract

The thermal-hydraulic performance of plain tubes with and without wire coils in turbulent regimes is investigated experimentally and numerically. The effects of wire coil distribution (circular cross section) within the tube were explored experimentally, and water was employed as the working fluid. The numerical simulation was carried out using software programmer ANSYS Fluent 2019 R3 using the finite-volume approach. In the turbulent regime, six cross-sectioned wire coils were analyzed, including: circular, rectangular, hexagonal, square, star shape, and triangle. The utilization of a tube with a wire coil has been shown to increase heat transfer rate and pump consumption. The results indicate a high level of concurrence, as the deviations are all below 8%. Compared with plain tube, the wire coils, according to the arrangement (TWD), gave the best PEC. The heat transfer enhancement ability of different cross sections follows the following order: StCS > RCS > HCS > SqCS > CCS > TCS. Also, the sequence of pump consumption for each cross section is as follows: RCS > StCS > SqCS > HCS > CCS > TCS.

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Keywords

Wire coil; performance evaluation criterion; friction factor; circular tube; cross section

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