INVESTIGAÇÃO EXPERIMENTAL DA INFLUÊNCIA DA INCLINAÇÃO DE TERMOSSIFÕES APLICADOS A TROCADORES DE CALOR DE ESCOAMENTO CRUZADO

XXIX Congresso Nacional de Estudantes de Engenharia Mecânica Pub Date : 1900-01-01 DOI:10.26678/abcm.creem2023.cre2023-0135

Victor Vaurek Dimbarre, Pedro Leineker Ochoski Machado, Allefe Chagas Vaz, Thomas Siqueira Pereira, Paulo Henrique DIAS DOS SANTOS, Thiago Antonini Alves

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Abstract

. Heat exchangers are devices that facilitate the heat exchange between two or more fluids that are at different temperatures and apart from one another, and they can have several different forms, including shell-and-tubes, serpentine, fins, plates, concentric tubes, among others. In the present work an experimental investigation of slope influence of thermosyphons applied to cross-flow heat exchangers was performed. To that effect, thermosyphons were manufactured in copper with an outer diameter of 9.45mm, an inner diameter of 7.75mm, and a total length of 180mm, of which 60mm are for the evaporator, 60mm are for the adiabatic section, and 60mm are for the condenser. The thermosyphons were filled with distilled water with 40% of the evaporator volume, tested experimentally at different slopes (0, 22.5, 45, 67.5, and 90° in relation to the horizontal) under power dissipations ranging from 1 to 11W and its cooling being performed by air forced convection. The thermal analysis was based on the temperature distribution along the length, on the operating temperature and on the thermal resistance. In view of the results observed for thermal performance, it was possible to determine that the best working slope was 67.5° in relation to the horizontal, given that it presented lower values of thermal resistance and lower operating temperature.

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热虹吸梯度对交叉流换热器影响的实验研究

．热交换器是促进两种或两种以上温度不同且彼此分开的流体之间热交换的装置，它们可以有几种不同的形式，包括管壳、蛇形、鳍片、板、同心管等。本文对应用于横流换热器的热虹吸管的斜率影响进行了实验研究。为此，热虹吸管采用铜制成，外径9.45mm，内径7.75mm，总长180mm，其中蒸发器60mm，绝热段60mm，冷凝器60mm。热虹吸管内填充蒸馏水，体积为蒸发器体积的40%，在功率耗散为1 ~ 11W、空气强制对流冷却的条件下，在不同坡度(与水平相对0、22.5、45、67.5和90°)下进行了实验测试。热分析是基于沿长度的温度分布、工作温度和热阻。根据热性能的观察结果，考虑到较低的热阻值和较低的工作温度，可以确定最佳工作斜率为相对于水平的67.5°。

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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XXIX Congresso Nacional de Estudantes de Engenharia Mecânica

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