In this study, the impact of Newtonian heating is incorporated into a two-dimensional ferrofluid. The flowing chemically reactive species of ferromagnetic fluid fluids. By virtue of this property, such fluids are necessary for heat transfer in engineering equipment and devices. The main focus of flowing fluids in these devices is to enhance the transfer of heat and decrease friction drag at the surface. Thus, the paper focuses on the analysis of the rate of heat transfer via Fourier’s law. The fluid in the problem is taken to be a viscous fluid containing chemically reactive species. Chemically reactive species consist of two or more base fluids. Therefore, the main interest is in watching the heat transfer impacts on the ferromagnetic fluid. This is important in the presence of chemically reactive species. The results obtained are shown to be in excellent agreement in specific cases available in literature.

在这项研究中，牛顿加热的影响被纳入二维铁磁流体。流动的铁磁流体的化学反应物质。由于这种特性，这种流体对于工程设备和装置中的传热是必需的。这些设备中流动流体的主要焦点是增强热传递并减少表面的摩擦阻力。因此，本文着重于通过傅里叶定律分析传热速率。问题中的流体被视为含有化学活性物质的粘性流体。化学活性物质由两种或多种基液组成。因此，主要兴趣在于观察热传递对铁磁流体的影响。这在存在化学反应性物质的情况下很重要。