In this report, the electric field strength impact on MHD Carreau AA7075 – water nanofluid flows is controlled by a stretching sheet with formable thickness. The three simple models of nanoparticle shapes are enrolled into a pattern, i.e. sphere $\left(m=3.0\right)$, cylinder $(m=6.3698)$ and lamina $\left(m=16.1576\right)$. The powerful partial differential equations (PDEs) are reconstructed into ordinary differential equations (ODEs) by performing persistent conformity design and it is polluted numerically by executing the Cash and Carp method, MAPLE 18 and Matlab. It is interesting to note that the rate of heat transfer of sphere-shaped nanoparticles in AA7075 – water nanofluid flow is more energetic than all the other shapes in the flow regime.

在此报告中，电场强度对MHD Carreau AA7075的影响–水纳米流体的流动是由具有可成形厚度的拉伸片控制的。将三种简单的纳米粒子形状模型注册为一种模式，即球形$（米=3.0）$， 圆筒 $（米=6.3698）$ 和薄层 $（米=16.1576）$。通过执行持久一致性设计，将强大的偏微分方程（PDE）重构为常微分方程（ODE），并通过执行Cash and Carp方法，MAPLE 18和Matlab对其进行数值污染。有趣的是，AA7075 –水纳米流体流中球形纳米颗粒的传热速率比流态中所有其他形状的传热速率更高。