Experimental Analysis Of Heat Transfer Characteristics Through Aerofoil Shaped Pin-Fin With Circular Holes Using Python

International Journal of Innovations in Engineering and Science Pub Date : 2023-04-20 DOI:10.46335/ijies.2023.8.4.15

Suhas Autade, Viraj Kanade, O. Deshmukh, Shailesh Prajapati, K. Dhanawade

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Abstract

– This report presents the results of an experimental analysis of heat transfer enhancement using different sizes of aero foil Pin-fin with circular holes by forced convection. The project aimed to investigate the thermal performance of various types of aero foil shape fins with circular slots of aluminum material, in terms of heat transfer coefficient, Nusselt number, friction factor, and effectiveness of fins. The experiment was conducted on a test section with an internal cross-section along the direction of flow. The experiment was carried out for 12 Pin Fin sets with variations in parameters such as height, number of holes, and diameter of these holes, and velocity was varied from 3m/s to 12m/s. The report outlines the methodology used in the experiment and provides a detailed analysis of the results. Overall, the report concludes that the aero foil Pin-fin with circular holes is a highly efficient heat transfer component with the potential for application in various industrial fields.

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带圆孔翼型针翅换热特性的Python实验分析

-本文介绍了不同尺寸的带圆孔的气动翼型销翅采用强制对流强化传热的实验分析结果。本课题旨在研究不同类型铝材料带圆槽的航空箔型翅片的热性能，包括换热系数、努塞尔数、摩擦系数和翅片的有效性。实验在沿流动方向的内截面试验段上进行。实验共进行了12组Pin Fin的实验，实验参数为高度、孔数和孔直径，速度为3m/s ~ 12m/s。报告概述了实验中使用的方法，并提供了对结果的详细分析。综上所述，带圆孔的航空箔Pin-fin是一种高效的传热元件，在各种工业领域具有应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Innovations in Engineering and Science

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