Viscous Dissipation Impact on Hydromagnetic Flow on a Stretching Surface: A Numerical Study

IF 0.2 Q4 MATHEMATICS
V. Deepthi, R. Raju, V. K. Narla
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Abstract

. The influence of magnetic field and viscous dissipation on a non-Newtonian fluid flowing across a nonlinear stretching sheet is investigated in this investigation. Researchers use similarity transformations to make the governing nonlinear partial differential equations (PDE) into ordinary differential equations (ODE) and then solve them using the ND Solve code in Mathematica. In the process of enhance the values of Eckert number, the temperature profile gets enhanced, while the rise in magnetic parameter decreases the velocity boundary layer (BL) thickness. The applications of this investigation are found in several heating devices and industrial processes such as incandescent light bulbs, food production, and many more.
黏性耗散对拉伸表面磁流影响的数值研究
. 本文研究了磁场和粘性耗散对非牛顿流体在非线性拉伸板上流动的影响。研究人员利用相似变换将控制非线性偏微分方程(PDE)转化为常微分方程(ODE),然后利用Mathematica中的ND solve代码求解。在增大Eckert数的过程中,温度剖面增强,而磁参数的增大使速度边界层厚度减小。这项研究的应用被发现在一些加热设备和工业过程,如白炽灯泡,食品生产,等等。
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