The consequences of double-diffusivity convection on the peristaltic transport of Sisko nanofluids in the non-uniform inclined channel and induced magnetic field are discussed in this article. The mathematical modeling of Sisko nanofluids with induced magnetic field and double-diffusivity convection is given. To simplify PDEs that are highly nonlinear in nature, the low but finite Reynolds number, and long wavelength estimation are used. The Numerical solution is calculated for the non-linear PDEs. The exact solution of concentration, temperature and nanoparticle are obtained. The effect of various physical parameters of flow quantities is shown in numerical and graphical data. The outcomes show that as the thermophoresis and Dufour parameters are raised, the profiles of temperature, concentration, and nanoparticle fraction all significantly increase.

本文讨论了双扩散对流对 Sisko 纳米流体在非均匀倾斜通道和感应磁场中蠕动传输的影响。给出了具有感应磁场和双扩散率对流的Sisko纳米流体的数学模型。为了简化本质上高度非线性的偏微分方程，使用低但有限的雷诺数和长波长估计。计算非线性偏微分方程的数值解。获得浓度、温度和纳米粒子的精确解。流量的各种物理参数的影响以数字和图形数据显示。结果表明，随着热泳和杜福尔参数的提高，温度、浓度和纳米粒子分数的分布均显着增加。