Fluid flow between two parallel active plates

IF 2.7 3区 数学 Q1 MATHEMATICS, APPLIED
Mustafa Turkyilmazoglu , Abdulaziz Alotaibi
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引用次数: 0

Abstract

This paper investigates the fluid flow phenomenon arising from the combined action of two parallel plates, which can expand/squeeze, absorb/inject, and stretch/shrink at different rates. These physical mechanisms are incorporated into the governing unsteady Navier–Stokes equations, which are then reduced to a fourth-order nonlinear differential equation with boundary conditions reflecting the imposed wall constraints. By letting the permeable Reynolds number (controlling the nonlinear convective terms) limit to zero, we demonstrate the existence of exact solutions expressed in terms of advanced mathematical functions. Additionally, in the absence of wall expansion/contraction, elementary exponential solutions are obtained under particular relationships between the stretching/shrinking and permeability parameters. A shear-like exact solution with broader applicability across various physical parameters is also identified. For moderate values of the expansion/squeezing parameters and permeable Reynolds numbers, we propose an efficient double-expansion perturbation analysis to approximate the flow behavior. Otherwise, for general physical parameters, a comprehensive mathematical analysis is provided and numerical simulations are employed to extract insights into the complex fluid motion between the parallel plates.
两块平行活动板之间的流体流动
本文研究了两块平行板的联合作用所产生的流体流动现象,这两块板可以以不同的速度膨胀/挤压、吸收/喷射和拉伸/收缩。这些物理机制被纳入了非稳态纳维-斯托克斯方程,然后被简化为四阶非线性微分方程,其边界条件反映了施加的壁面约束。通过让渗透雷诺数(控制非线性对流项)极限为零,我们证明了用高级数学函数表示的精确解的存在。此外,在没有壁面膨胀/收缩的情况下,根据拉伸/收缩和渗透性参数之间的特定关系,可以得到基本指数解。此外,还确定了一种类似剪切力的精确解,可广泛适用于各种物理参数。对于适中的伸缩参数值和渗透性雷诺数,我们提出了一种高效的双伸缩扰动分析方法来近似流动行为。否则,对于一般的物理参数,我们将提供全面的数学分析,并采用数值模拟来深入了解平行板间复杂的流体运动。
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
Physica D: Nonlinear Phenomena
Physica D: Nonlinear Phenomena 物理-物理:数学物理
CiteScore
7.30
自引率
7.50%
发文量
213
审稿时长
65 days
期刊介绍: Physica D (Nonlinear Phenomena) publishes research and review articles reporting on experimental and theoretical works, techniques and ideas that advance the understanding of nonlinear phenomena. Topics encompass wave motion in physical, chemical and biological systems; physical or biological phenomena governed by nonlinear field equations, including hydrodynamics and turbulence; pattern formation and cooperative phenomena; instability, bifurcations, chaos, and space-time disorder; integrable/Hamiltonian systems; asymptotic analysis and, more generally, mathematical methods for nonlinear systems.
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