牛顿热液流动现象通过突然膨胀通道有或没有挡板

S. Saha, P. Biswas, K. Jha, A. Das, Rajesh Chaudhury
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引用次数: 0

摘要

本文采用有限体积法研究了有或无平面挡板的1:3突然膨胀通道中牛顿流体流动和换热的不同特性。假定流动是粘性的、不可压缩的、稳定的和层流的。研究了𝑅𝑒∈[0.1−200]的热液流动现象的不同特征,以证明挡板存在的影响。研究了有挡板和无挡板两种情况下的流速、压力、表面摩擦系数、摩擦系数、平均纽瑟尔数和泵送功率的分布。已经观察到,随着挡板数量的增加,水热特性变得更加明显。在三个等长挡板的情况下,在𝑅𝑒= 200处计算出,如果挡板的厚度相同且等于长度的10%,则Nu的值约为不加挡板时的1.2倍。再保险的相同的值,它被发现,存在一个挡板的长度等于thechannel的入口部分的宽度和厚度相同,10%的的价值𝑁𝑢􀯔􀯩变得,带不带挡板的1.11倍,而在三个挡板的长度和同等厚度的像一个挡板的上述情况,的价值𝑁𝑢􀯔􀯩变得没有挡板的1.25倍。热现象的增强随挡板高度的增加而增加。
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Newtonian hydro-thermal fluid fl 1 ow phenomena through a sudden 2 expansion channel with or without baffles
This work aims to study the different characteristics of Newtonian fluid flow and heat transfer througha 1:3 sudden expansion channel with or without plane baffles using the finite volume method. The flowis assumed viscous, incompressible, steady, and laminar. The different characteristics of hydro-thermalfluid flow phenomena have been studied for 𝑅𝑒 ∈ [0.1 − 200] to demonstrate the influence of thepresence of baffles. The profiles of velocity, pressure, skin friction coefficient, friction factor, averageNusselt number, and pumping power have been examined for both the cases of the presence and absenceof baffles. It has been observed that the hydro-thermal characteristics become more pronounced withthe increase in the number of baffles. In the case of three baffles of equal length, at 𝑅𝑒 = 200 it iscalculated that if the thickness of the baffles is same and equal to 10% of the length, then the value of Nu becomes approximately 1.2 times of that in the absence of baffle. For the same value of Re, ithas been found that for the presence of one baffle of length equal to the width of the inlet section of thechannel and of thickness 10% of the same, the value of 𝑁𝑢􀯔􀯩 becomes 1.11 times of that in the absenceof baffle, while in the case of three baffles of equal length and of equal thickness like the abovementioned case of one baffle, the value of 𝑁𝑢􀯔􀯩 becomes 1.25 times of that in absence of baffle. It hasalso been revealed that the enhancement of thermal phenomena increases with the increase inthe baffle’s height.
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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