The aim of this research is to understand the characteristics of fins with a trapezoidal cross-section. The shape of the fin's cross-section is one of the influential factors affecting fin characteristics. In the design of fins, it is crucial to comprehend the characteristics of the fin as they relate to temperature distribution, heat transfer rate, and the efficiency of the fin. The research was conducted using numerical computation with an explicit finite difference method. Variations were made in the length of side 3 of the trapezium to 0 m, 0.02 m, and 0.04 m. The research results indicate that increasing the width of the fin enhances the temperature distribution, flow rate, and efficiency achievable by the fin. Significant improvement occurred when varying the side length from 0 m to 0.02 m, whereas subsequent variations did not considerably alter the efficiency. The highest efficiency achieved was 0.90 when the length of side 3 was 4 cm at the 300 seconds.

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K. Ginting, P.K. Purwadi, and S. Mungkasi, “Efficiency and effectiveness of a fin having capsule-shaped cross section dependent on the one-dimensional position,” Proceedings of the 1st International Conference on Science and Technology for an Internet of Things, 20 October 2018, Yogyakarta, Indonesia.

P. K. Purwadi and M. Seen, “Efficiency and effectiveness of a fin having the capsule-shaped cross section in the unsteady state,” AIP Conference Proceedings, vol. 2202, art. 020092, 2019.

P. K. Purwadi, B. Setyahandana, and R. B. P. Harsilo, “Obtaining the efficiency and effectiveness of fin in unsteady state conditions using explicit finite difference method,” International Journal of Applied Sciences and Smart Technologies, vol. 3, no. 1, pp. 111-124, 2021.

P. S. Prabowo and S. Mardikus, “Heat Transfer Characteristic on Wing Pairs Vortex Generator using 3D Simulation of Computational Fluid Dynamic,” International Journal of Applied Sciences and Smart Technologies, vol. 3, no. 2, pp. 215-224, 2021.

P. K. Purwadi and B. Y. Pratama, “Efficiency and effectiveness of a truncated cone-shaped fin consisting of two different materials in the steady-state,” AIP Conference Proceedings, vol.2202, art. 020091, 2019.

T. D. Nugroho and P. K. Purwadi, “Fins effectiveness and efficiency with position function of rhombus sectional area in unsteady condition,” AIP Conference Proceedings, vol. 1788, art. 030034,2017.

P. K. Purwadi and M. Seen, “The efficiency and effectiveness of fins made from two different materials in unsteady-state,” Journal of Physics: Conference Series, vol. 1511, no. 1, 2020.

P. K. Purwadi, B. Setyahandana, and M. Seen, “Efficiency and effectiveness of a fin having the ellipse cross section in the unsteady state condition”, AIP Conference Proceedings, vol.2364, art. 030001, 2021.

A. W. Vidjabhakti, P. K. Purwadi, and S. Mungkasi, “Efficiency and Effectiveness of a Fin Having Pentagonal Cross Section Dependent on the One-Dimensional Position,” Proceedings of the 1st International Conference on Science and Technology for an Internet of Things, 20 October 2018, Yogyakarta, Indonesia.

P.K. Purwadi, Y. Angga, and S. Mungkasi, “Efficiency and Effectiveness of a Rotation-Shaped Fin Having the Cross-Section Area Dependent on the One-Dimensional Position,” Proceedings of the 2nd International Conference of Science and Technology for the Internet of Things, ICSTI 2019, September 3rd 2019, Yogyakarta, Indonesia.

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P. K. Purwadi, “Efisiensi dan Efektivitas Sirip Longitudinal dengan Profil Siku Empat Keadaan Tak Tunak Kasus 2D,” Seminar Nasional Aplikasi Sains dan Teknologi, IST Akprind, Yogyakarta, 2008.