The Effect of Variable Heat Flux on Unsteady Laminar MHD Boundary Layer Flow and Heat Transfer Due to a Stretching Sheet

Ajaykumar M, A. H. Srinivasa
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Abstract

The purpose of this research is to look into the solution technique for obtaining MHD velocity and temperature profiles. In the presence of a changing heat flux, the unsteady laminar boundary layer flow and heat transfer of a viscous incompressible fluid across a stretching sheet are numerically investigated. The unsteadiness is thought to be generated by a sudden increase in the surface temperature and a time-dependent stretching velocity. The flow and heat transfer partial differential equations were numerically solved using an implicit finite difference scheme and a quasi-linearization technique. Both velocity and temperature rise with time and magnetic field, according to the findings. The computed results are compared to previous work that has been published. Variable heat flux (VHF) conditions have also been taken into account.
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可变热通量对拉伸薄板引起的非稳态层流 MHD 边界层流动和传热的影响
本研究的目的是探讨获得 MHD 速度和温度曲线的求解技术。在热通量不断变化的情况下,对粘性不可压缩流体在拉伸片上的非稳态层流边界层流动和传热进行了数值研究。不稳定性被认为是由表面温度的突然升高和随时间变化的拉伸速度产生的。采用隐式有限差分方案和准线性化技术对流动和传热偏微分方程进行了数值求解。研究结果表明,速度和温度均随时间和磁场而上升。计算结果与之前发表的研究成果进行了比较。此外,还考虑了可变热通量(VHF)条件。
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