A theoretical model on MHD hybrid nanofluid flow in accordance with non-uniform heat flux and solar energy radiation has been studied in our work. Also, the impact of multiple slip conditions is presumed at the boundary. Comparative flow analyses for hybrid nanofluid (Al₂O₃/Cu–H₂O) and single nanoparticle-based nanofluid (Cu–H₂O) are addressed here with graphs and charts. The leading partial differential equations with boundary conditions have been converted into ordinary differential equations with the aid of similarity transformation. The final system is tackled via the fifth-order Runge–Kutta–Felberg method with shooting procedure and the computation is done using Maple 17. One of the interesting results shows that with the growth of thermal radiation, the Nusselt number for Cu–H₂O is reduced by 26.16%, whereas for the same, Nusselt number for Al₂O₃/Cu–H₂O is lessened by 27.38%. Fallout shows that with the growing values of velocity slip parameter, the thermal boundary layer thickness enlarges faster for Al₂O₃/Cu–H₂O in comparison to Cu–H₂O.

中文翻译：

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太阳辐射下混合纳米流体的滑流

在我们的工作中，我们研究了根据非均匀热通量和太阳能辐射的 MHD 混合纳米流体流动的理论模型。此外，在边界处假定了多个滑动条件的影响。混合纳米流体 (Al ₂ O ₃ /Cu-H ₂ O) 和单纳米粒子基纳米流体 (Cu-H _{2 ) 的比较流动分析}O) 在这里用图形和图表来解决。通过相似变换将带边界条件的领先偏微分方程转化为常微分方程。最终系统通过五阶 Runge-Kutta-Felberg 方法和射击程序进行处理，并使用 Maple 17 完成计算。有趣的结果之一表明，随着热辐射的增长，Cu-H ₂的努塞尔数O减少了26.16%，而Al ₂ O ₃ /Cu-H ₂ O的努塞尔数减少了27.38%。_{Fallout 表明随着速度滑移参数值的增加，Al 2} O ₃的热边界层厚度增加得更快/Cu-H _{2 O 与 Cu-H 2} O的比较。