TY -的A2 Ahmad Riaz AU - Eswaramoorthi, s . AU - Alessa Nazek盟——Sangeethavaanee m . AU - Kayikci Safak盟——Namgyel Ngawang PY - 2021 DA - 2021/08/18 TI -混合对流和热辐射磁流体动力流威廉姆森Nanofluid阿伦尼乌斯活化能和Cattaneo-Christov Heat-Mass通量SP - 2490524六世- 2021 AB -在这篇文章中,我们研究了热的影响辐射磁流体动力流威廉姆森Nanofluid弹性板。在弹性板通过Darcy-Forchheimer饱和流关系。Cattaneo-Christov heat-mass通量理论采用帧能源和纳米颗粒的浓度方程。另外,传质分析是由化学反应活化能和二进制。通过修改后的阿伦尼乌斯活化能调用函数。当前研究的目的是提高工业过程的传热率。非牛顿纳米流体的热特性更加突出比普通工作液体。管理模型改变成ODE模型,这些模型被应用MATLAB bvp4c数值求解算法。图形和表格解释过各式各样的不同参数的影响。流体速度升级增强理查森数,它脱落高等韦森伯数的值。 It is noticed that the fluid temperature declines for higher values of the Brownian motion parameter and it grows for larger values of the thermophoresis parameter. The activation energy enriches the heat transfer gradient and suppresses the local Sherwood number. Additionally, the more significant heat transfer gradient occurs in heat-absorbing nonradiative viscous nanofluid and a smaller heat transfer gradient occurs in heat-generating radiative Williamson nanofluid. Also, we noticed that a higher heat transfer gradient appears in the Fourier model than in the Catteneo–Christov model. In addition, the comparative results are confirmed and reached an outstanding accord. SN - 2314-4629 UR - https://doi.org/10.1155/2021/2490524 DO - 10.1155/2021/2490524 JF - Journal of Mathematics PB - Hindawi KW - ER -