Exact Analysis of Fractionalised Jeffrey Fluid in a Channel with Caputo and Caputo Fabrizio Time Derivative: A Comparative Study

IF 1 Q4 ENGINEERING, MECHANICAL Acta Mechanica et Automatica Pub Date : 2023-12-01 DOI:10.2478/ama-2023-0068

Maryam Asgir, M. B. Riaz, Ayesha Islam

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Abstract

Abstract The non-integer order derivatives, Caputo (C) and Caputo Fabrizio (CF), were employed to analyse the natural convective flow of magnetohydrodynamic (MHD) Jeffrey fluid. The aim is to generalise the idea of Jeffrey’s fluid flow. The fluid flow is elaborated between two vertical parallel plates. One plate is kept fixed while the other is moving with the velocity U0f(t), which induces the motion in the fluid. The fluid flow problem is modelled in terms of the partial differential equation along with generalised physical conditions. The appropriate parameters are introduced to the dimensionless system of equations. To obtain the solutions, the Laplace transform (LT) is operated on the fractional system of equations, and the results are presented in series form. The pertinent parameter’s influence on the fluid flow is brought under consideration to reveal interesting results. In comparison, we noticed that the C approach shows better results than CF, and graphs are drawn to show the results. The results for ordinary Jeffrey fluid, second-grade and viscous fluid are obtained in a limiting sense.

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利用卡普托和卡普托-法布里齐奥时间导数对通道中的分化杰弗里流体进行精确分析：比较研究

摘要采用非整数阶导数 Caputo (C) 和 Caputo Fabrizio (CF) 分析了磁流体动力学 (MHD) 杰弗里流体的自然对流。其目的是推广杰弗里流体流动的概念。流体在两个垂直平行板之间流动。其中一块板保持固定，另一块板以 U0f(t) 的速度运动，从而引起流体运动。流体流动问题是通过偏微分方程和通用物理条件来模拟的。在无量纲方程组中引入了适当的参数。为了求解，对分式方程组进行拉普拉斯变换 (LT)，结果以串联形式呈现。我们考虑了相关参数对流体流动的影响，并得出了有趣的结果。在比较中，我们注意到 C 方法比 CF 方法显示出更好的结果，并绘制了图表来显示结果。普通杰弗里流体、二级流体和粘性流体的结果是在限制意义上获得的。

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