This communication aims to develop the thermal flow model for generalized micropolar nanofluid with insensitive applications of bioconvection, activation energy and nonlinear thermal radiation. The generalized micropolar fluid model is the extension of traditional micropolar fluid model with viscoelastic relations. The viscous nature of non-Newtonian micropolar material can be successfully predicted with help of this model. The motivating idea for considering the motile microorganisms is to control the nanoparticles suspension effectively. The higher order slip relations are incorporated to examine the bio-convective phenomenon. The simplified coupled equations in terms of non-dimensional variables are numerically treated with shooting scheme. The reliable graphical outcomes are presented for flow parameters governed to the transported problem. The flow pattern of each parameter is highlighted in view of viscous nature of micropolar fluid.

该交流旨在开发具有生物对流，活化能和非线性热辐射的不敏感应用的广义微极性纳米流体的热流模型。广义微极性流体模型是具有粘弹性关系的传统微极性流体模型的扩展。借助该模型，可以成功地预测非牛顿微极性材料的粘性性质。考虑运动微生物的动机是有效控制纳米颗粒的悬浮。高阶滑动关系被纳入以检查生物对流现象。用射击方案对无量纲变量上的简化耦合方程进行数值处理。提出了可靠的图形结果，用于控制运输问题的流量参数。