Ali Rehman, Muhammad Zeb, Asif Waheed, Mostafa Inc, Budur Yagoob, Rashid Jan
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引用次数: 0
摘要
本研究通过分析研究了在存在磁场和粘性耗散的情况下,纳米流体 GO-EG 和 GO-W 在收缩表面上的非线性对流边界层(BL)流动的稳定性分析。我们根据基础流体和纳米流体的热物理特性以及动量和能量基本控制方程中的相似变换(ST),提供了温度分布(TD)的二阶非线性常微分方程(NODE)和速度曲线(VP)耦合的三阶 NODE。分析方法 HAM 用于回答收集到的方程。在制造、汽车、微电子和国防等许多不同行业中,各类设备和装置的冷却都面临着非常重要的挑战。为了满足工程和工业行业的需求,希望这一问题能显著提高热转换率。
Stability analysis of nonlinear convective boundary layer flow on a shrinking surface in the presence of viscous dissipation
This study investigates analytically the stability analysis of a nonlinear convective boundary layer (BL) flow of the nanofluids GO-EG and GO-W on a shrinking surface in the presence of a magnetic field and viscous dissipation. We provide a second-order nonlinear ordinary differential equation (NODE) for temperature distribution (TD) and a third-order NODE for velocity profile (VP) coupling based on the thermophysical characteristics of the base fluid and nanofluid as well as similarity transformations (STs) in the fundamental governing equations of momentum and energy. The analytical method HAM is used to answer the equations that have been gathered. In many different industries, such as manufacturing, automotive, microelectronics, and defense, cooling of various types of equipment and devices has very important challenges. To fulfill the demands of the engineering and industrial industries, it is hoped that this issue would significantly improve the heat transformation ratio.
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