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 Pub Date : 1900-01-01 DOI:10.4108/eai.20-9-2019.2292097

PK Purwadi, Yunus Angga, S. Mungkasi

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引用次数: 1

Abstract

This article reports research results on the efficiency and effectiveness of a rotation-shaped fin. The cross section area of the fin is dependent on the one-dimensional position. The computation is based on the conservation of energy. Using a finite difference method, we compute the temperature of the fin at every time step. We focus our investigation in unsteady state problems. We obtain that when the state is unsteady, the efficiency and effectiveness of the fin are affected by the thermal diffusivity of the material. When the state is steady, the efficiency and effectiveness of the fin is affected by the thermal conductivity of the material. The velocity of the fluid acrosses the fin influences the efficiency and effectiveness of the fin, that is, the greater the speed of fluid flowing across the fins, the lower the efficiency and effectiveness of the fin.

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具有依赖于一维位置的横截面面积的旋转型鳍的效率和有效性

本文报道了旋转型鳍的效率和有效性的研究结果，鳍的横截面面积取决于一维位置。计算是基于能量守恒的。用有限差分法计算了鳍片在每个时间步长的温度。我们集中研究非定常问题。在非定常状态下，翅片的效率和效能受材料热扩散系数的影响。当状态稳定时，翅片的效率和有效性受到材料导热系数的影响。流体流过鳍的速度影响鳍的效率和效果，即流体流过鳍的速度越大，鳍的效率和效果越低。

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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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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