Thermal transport analysis of squeezing hybrid nanofluid flow between two parallel plates

Hybrid nanofluids outperform mono in terms of heat transmission. They can be found exchangers, the automobile industry, transformer cooling, and electronic addition to solar collectors military equipment. The primary goal this study is scrutinize magnetohydrodynamic hybrids nanofluid (Copper-oxides Titanium dioxide/water) [Formula: see text] flow two parallel plates using walls suction/injection under influence a magnetic field thermal radiation. Implementing appropriate transformation, governing partial differential equations are converted into equivalent ordinary equations. In MATLAB software, built-in numerical technique bvp4c used evaluate final system generate graphical results against velocity temperature gradient for various parameters. increasing evaluation Reynolds number parameter influenced concentration. response surface method sensitivity contour graphs tables. Skin friction Nusselt have an outcome on characteristics as well. This type research critical coolant process, aviation engineering, industrial cleaning processes, among other fields. several cases, comparing current historical findings reveals good agreement.