Analysis of a Reactive flow in Rotating Concentric Cylinders

African Journal of Mathematics and Statistics Studies Pub Date : 2024-08-08 DOI:10.52589/ajmss-p7zcwkpd

Badejo O. M., Ogunbamike O. K.

{"title":"Analysis of a Reactive flow in Rotating Concentric Cylinders","authors":"Badejo O. M., Ogunbamike O. K.","doi":"10.52589/ajmss-p7zcwkpd","DOIUrl":null,"url":null,"abstract":"The introduction of bearing was to bring conveniences because it reduces the friction and whirring at the joint, especially for complex moving machines. Bearing was produced for smooth usage but the contrary is derived once they are being used on uneven roads or subjected to overloading. This may not sustain lives again but put them at risk which may lead to death sometimes. The governing equations were modeled based on the reviewed work, linearized and adopted with Hartmann number (Ha), Pressure gradient (G) and other parameters like Darcy number (Da), Prandtl number (Pr), Eckert number (Ec), Suction parameter (V_0) and Reynolds number (Re) but they were made to be equal to one (1) throughout the research work. The energy equation with reactive terms was tested and the value of G was at an interval of 0.50 from 0.00 to 2.00 while the Ha were considered at an interval of 1.00 from 1.00 to 10.00. Perturbation method was used to linearize the equations and was solved numerically using the semi-implicit finite difference scheme with Maple 18 software. When the value of Ha was observed from 0.00mms^(-1) to 20.00mms^(-1) with 0≤G≤2, it shows an increase in velocity which depicts reduction in the free flow of fluids in the rotating concentric cylinder. When G>0, there is smooth fluid flow in the system and the results show that the higher the value of G the more the fluid flow (0≤G≤2). The temperature of G on Ha reduces as the value of Ha on G increases suggesting that G≥10 can be used to stabilize the system’s temperature. The result of Ha on other parameters for both velocity and temperature increase as the value of Ha increases. Also, the maximum temperature of the system with reactive flow is very high; ranging from 0.05-0.30 deg∁. The results were in agreement with related works in literature.","PeriodicalId":251990,"journal":{"name":"African Journal of Mathematics and Statistics Studies","volume":"59 9","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-08-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"African Journal of Mathematics and Statistics Studies","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.52589/ajmss-p7zcwkpd","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

The introduction of bearing was to bring conveniences because it reduces the friction and whirring at the joint, especially for complex moving machines. Bearing was produced for smooth usage but the contrary is derived once they are being used on uneven roads or subjected to overloading. This may not sustain lives again but put them at risk which may lead to death sometimes. The governing equations were modeled based on the reviewed work, linearized and adopted with Hartmann number (Ha), Pressure gradient (G) and other parameters like Darcy number (Da), Prandtl number (Pr), Eckert number (Ec), Suction parameter (V_0) and Reynolds number (Re) but they were made to be equal to one (1) throughout the research work. The energy equation with reactive terms was tested and the value of G was at an interval of 0.50 from 0.00 to 2.00 while the Ha were considered at an interval of 1.00 from 1.00 to 10.00. Perturbation method was used to linearize the equations and was solved numerically using the semi-implicit finite difference scheme with Maple 18 software. When the value of Ha was observed from 0.00mms^(-1) to 20.00mms^(-1) with 0≤G≤2, it shows an increase in velocity which depicts reduction in the free flow of fluids in the rotating concentric cylinder. When G>0, there is smooth fluid flow in the system and the results show that the higher the value of G the more the fluid flow (0≤G≤2). The temperature of G on Ha reduces as the value of Ha on G increases suggesting that G≥10 can be used to stabilize the system’s temperature. The result of Ha on other parameters for both velocity and temperature increase as the value of Ha increases. Also, the maximum temperature of the system with reactive flow is very high; ranging from 0.05-0.30 deg∁. The results were in agreement with related works in literature.

查看原文本刊更多论文

同心圆旋转中的反应流分析

轴承的引入为人们带来了便利，因为它减少了连接处的摩擦和呼啸声，尤其是对于复杂的运动机器而言。轴承是为平稳使用而生产的，但一旦在不平坦的道路上使用或承受超负荷，情况就会截然相反。这可能无法再次维持生命，但会使其处于危险之中，有时可能导致死亡。根据已审查的工作，对控制方程进行了建模、线性化，并采用了哈特曼数 (Ha)、压力梯度 (G) 和其他参数，如达西数 (Da)、普朗特数 (Pr)、埃克特数 (Ec)、吸力参数 (V_0) 和雷诺数 (Re)，但在整个研究工作中，这些参数都等于一 (1)。对带有反应项的能量方程进行了测试，G 值的区间为 0.50（0.00 至 2.00），而 Ha 值的区间为 1.00（1.00 至 10.00）。采用扰动法将方程线性化，并使用 Maple 18 软件的半隐式有限差分方案进行数值求解。当 Ha 值从 0.00mms^(-1) 到 20.00mms^(-1) 且 0≤G≤2 时，观察到速度增加，这表明旋转同心圆柱体中流体的自由流动减少。当 G>0 时，系统中流体流动顺畅，结果表明 G 值越大（0≤G≤2），流体流动越多。G 对 Ha 的影响随着 Ha 对 G 的影响值的增加而减小，这表明 G≥10 可用来稳定系统温度。随着 Ha 值的增加，Ha 对其他速度和温度参数的影响结果也随之增加。此外，反应流系统的最高温度非常高，在 0.05-0.30 度之间。这些结果与相关文献的研究结果一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

African Journal of Mathematics and Statistics Studies

自引率

0.00%

发文量