Numerical Investigation of Forced Convective Heat Transfer and Fluid Flow Analysis in a Double Lid Driven Staggered Cavity With Various Blocks

IF 1.2 4区地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS

Periodico Di Mineralogia Pub Date : 2022-04-16 DOI:10.37896/pd91.4/91421

M. Gurunathan

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Abstract

The investigation reported in this project is dealt about the Steady-state laminar flow and heat transfer in a lid-driven staggered cavity with two heated blocks. Based on the aspect ratio (AR = H / L = 1, H / L = 2, H / L = 1 (circle)), three different block shapes for numerical experiments are introduced. Huge blocks with no slip or static wall conditions are considered and placed in the geometric center of the cavity. The simulation is run for Reynolds numbers 100, 200, 500, 1000, and 2000 and the block temperature is 573K. The top lid moves to the right and the bottom lid moves to the left. Both are considered the same speed.. It was found that the dynamics and structure of the primary vortex and the angular vortex are strongly influenced by the Reynolds number. Studies clearly show that as the Reynolds number increases, the total drag coefficient decreases. The study reveals the important flow physics such as flow separation, boundary-layer and recirculation. The results will be beneficial for similar situation occur in many industrial problems. shows a schematic diagram of a zigzag cavity driven by a double-sided lid. Here, both the top and bottom lids move at the same speed, the top wall moves parallel forward, and the bottom wall moves in the next direction. antiparallel backward direction. The two block is placed at the center of diagonally symmetric cavity. Blocks are maintained at uniform temperature. The top lid is assumed to move at a prescribed positive horizontal velocity value and the bottom lid moves with a negative velocity with a magnitude equal to the velocity of the top lid. while the left and right are adiabatic.

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双盖驱动多块交错腔内强制对流换热数值研究及流体流动分析

本文研究了两加热块盖驱动交错腔内的稳态层流和换热问题。基于宽高比(AR = H / L = 1, H / L = 2, H / L = 1(圆))，介绍了三种不同的块体形状用于数值实验。考虑无滑移或静壁条件下的巨大块体，并将其放置在空腔的几何中心。在雷诺数为100、200、500、1000和2000的情况下进行了模拟，块温度为573K。上盖向右移动，下盖向左移动。两者被认为是相同的速度。研究发现，初始涡和角涡的动力学和结构受雷诺数的影响较大。研究清楚地表明，随着雷诺数的增加，总阻力系数减小。研究揭示了流动分离、边界层和再循环等重要的流动物理现象。研究结果对今后许多行业中出现的类似问题具有借鉴意义。展示了由双面盖驱动的之字形空腔的示意图。在这里，顶部和底部的盖子都以相同的速度移动，顶部墙壁平行向前移动，底部墙壁向下一个方向移动。反向反平行。两个块放置在对角线对称腔的中心。块保持在均匀的温度。假设顶盖以规定的正水平速度值移动，而底盖以负速度移动，其大小等于顶盖的速度。而左边和右边是绝热的。

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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来源期刊

Periodico Di Mineralogia 地学-地球化学与地球物理

CiteScore

1.50

自引率

14.30%

发文量

审稿时长

>12 weeks

期刊介绍： Periodico di Mineralogia is an international peer-reviewed Open Access journal publishing Research Articles, Letters and Reviews in Mineralogy, Crystallography, Geochemistry, Ore Deposits, Petrology, Volcanology and applied topics on Environment, Archaeometry and Cultural Heritage. The journal aims at encouraging scientists to publish their experimental and theoretical results in as much detail as possible. Accordingly, there is no restriction on article length. Additional data may be hosted on the web sites as Supplementary Information. The journal does not have article submission and processing charges. Colour is free of charges both on line and printed and no Open Access fees are requested. Short publication time is assured. Periodico di Mineralogia is property of Sapienza Università di Roma and is published, both online and printed, three times a year.