A numerical model is employed for the nanofluid flow and heat transfer from an infinite vertical plate in the existence of a magnetic field, thermal radiation and viscous dissipation. The solution of the basic governing equations was obtained by the finite element procedure. A collection of nanofluids with a fraction of nanoparticle volume comprising nanoparticles of aluminium oxide, copper, and titanium oxide is included less than or equal to 0.04. With the aid of non-dimensional flow parameters, the mathematical results of velocity and temperature distributions are analysed and shown diagrammatically. It is found that velocity and Temperature profiles enhance by enhancing the value of radiation parameter. The current simulations outlined are relevant for the processing of magnetic nanomaterials in the chemical industry and the metallurgy sector.

在存在磁场，热辐射和粘性耗散的情况下，采用数值模型来计算纳米流体从无限垂直板的流动和传热。基本控制方程的解是通过有限元程序获得的。包括小于或等于0.04的具有纳米颗粒体积的一部分的纳米流体的集合，该纳米流体包括氧化铝，铜和氧化钛的纳米颗粒。借助无量纲的流动参数，分析并以图解方式显示了速度和温度分布的数学结果。发现通过增加辐射参数的值可以提高速度和温度分布。 概述的当前模拟与化学工业和冶金领域中磁性纳米材料的加工有关。