This article examines the characteristics of mass and heat transfer in Sisko fluid flow. The consideration is given to continuous, two-dimensional movement of Sisko fluid exhibiting incompressible and viscous characteristics. The fluid flows over a stretching sheet encompassing chemical reaction and subjected to the soret effect and viscous dissipation. The arising set of interconnected PDEs is converted to nonlinear ODEs using similarity transformations. This study reveals that an increase in the Soret number induces an upward shift in the concentration profile across the flow region. Also, an increase in the Sisko fluid parameter gives rise in the skin-friction coefficient. Following the calculations, the results for the heat, mass transfer rate and skin-friction coefficient, are compiled and presented in a tabulated form. A systematic discussion of similarity solutions in comparison with established findings not only validates the accuracy of the numerical results but also underlines the reliability and robustness of the methodology applied in this study.

中文翻译：

---

计算 sisko 纳米流体在拉伸片上流动时的索雷特效应，包括化学反应和粘性耗散


本文研究了 Sisko 流体流动中的传质和传热特性。考虑了西斯科流体的连续二维运动，表现出不可压缩和粘性特性。流体流过包含化学反应的拉伸片并受到索雷效应和粘性耗散。使用相似变换将产生的互连 PDE 集转换为非线性 ODE。这项研究表明，索雷特数的增加会导致整个流动区域的浓度分布向上移动。此外，Sisko 流体参数的增加会导致表面摩擦系数增加。计算完成后，将热量、传质速率和表面摩擦系数的结果汇总并以表格形式呈现。对相似解与已建立的结果进行比较的系统讨论不仅验证了数值结果的准确性，而且强调了本研究中所用方法的可靠性和稳健性。