State Space Approach to Unsteady FreeConvection Effects on Perfectly Conducting Viscoelastic Fluid

Q1 Engineering International Journal of Applied Engineering Research (Netherlands) Pub Date : 2021-10-30 DOI:10.37622/ijaer/16.10.2021.839-845
V. Dhanalaxmi
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Abstract

In this work, we introduce magneto hydrodynamic model of boundary-layer equations for a perfectly conducting viscoelastic fluid. This model is applied to study the effects of free convection currents with one relaxation time on the flow of a perfectly conducting visco-elastic fluid through a porous medium, which is bounded by a vertical plane surface. The state space approach is adopted for the solution of one-dimensional problems. The resulting formulation together with the Laplace transform technique is applied to a thermal shock problem. A discussion of the effects of cooling and heating on a perfectly conducting viscoelastic fluid is given. Numerical results are illustrated graphically for the problem considered.
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非定常自由对流对完全导电粘弹性流体影响的状态空间方法
本文引入了完美导电粘弹性流体边界层方程的磁流体力学模型。应用该模型研究了具有一个松弛时间的自由对流对完全导电粘弹性流体在以垂直平面为界的多孔介质中流动的影响。采用状态空间方法求解一维问题。所得公式与拉普拉斯变换技术一起应用于热冲击问题。讨论了冷却和加热对完全导电粘弹性流体的影响。对所考虑的问题给出了数值结果图解。
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International Journal of Applied Engineering Research (Netherlands)
International Journal of Applied Engineering Research (Netherlands) Engineering-Engineering (all)
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