The present study addresses the magnetohydrodynamic micropolar nanofluid past a stretching sheet. All the analysis are carried out by using non-Fourier and non-Fick's models. The effect of viscous dissipation, thermal radiation and Ohmic heating have also been incorporated in the energy equation. After using similarity transformations the modeled PDEs are converted into ODEs and solution is achieved via shooting approach. The solution of these transformed equations is used to obtain the distribution of the heat and mass transfer coefficient over the sheet. The impact of different parameters on dimensionless profiles are analyzed graphically for different range of values. Our simulations depicts that the concentration relaxation parameter declines the energy and the concentration profiles.

本研究解决了通过拉伸片的磁流体动力学微极性纳米流体。所有分析都是通过使用非傅立叶模型和非菲克模型进行的。粘性耗散，热辐射和欧姆加热的影响也已纳入能量方程。使用相似性转换后，将建模的PDE转换为ODE，并通过射击方法实现解决方案。这些变换方程的解用于获得热和传质系数在薄片上的分布。对于不同的值范围，以图形方式分析了不同参数对无量纲轮廓的影响。我们的模拟结果表明，浓度松弛参数会降低能量和浓度分布。