Investigation of heat transfer in functionally graded annular fins under natural convection using Taguchi methods

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Şafak İ., Şenyiğit E., Güneş S., Doğmaz M. A.

Journal of Thermal Analysis and Calorimetry, pp.1-15, 2025 (SSCI)

• Publication Type: Article / Article
• Publication Date: 2025
• Doi Number: 10.1007/s10973-025-14484-2
• Journal Name: Journal of Thermal Analysis and Calorimetry
• Journal Indexes: Social Sciences Citation Index (SSCI), Scopus
• Page Numbers: pp.1-15
• Kayseri University Affiliated: Yes

Abstract

This study employs the Taguchi method to determine the optimal design parameters for fin arrays attached to a cylinder under

natural convection. The research investigates the effects of fin material, heat input, cylinder tilt angle, and the number of fins

on the net heat transfer rate. Using the Nusselt number as the performance parameter, an L16 (43 21) experimental plan was

selected to identify the optimum design for maximizing natural convection heat transfer. A notable aspect of this study is the

use of functionally graded annular fins composed of aluminum and copper, in addition to homogeneous aluminum fins. The

results from the Taguchi method indicate that optimal heat transfer is achieved with a heat input of Q0 = 150 W , the number

of fins N= 7 , tilt angle 𝜃= 0 , and functionally graded material for the fins. These findings demonstrate that functionally

graded materials enhance heat transfer by 18% compared to homogeneous aluminum fins