Blasius Flow over a Permeable Moving Flat Plate Containing Cu-Al2O3 Hybrid Nanoparticles with Viscous Dissipation and Radiative Heat Transfer

This study examines the Blasius flow with Cu-Al2O3 hybrid nanoparticles over a moving plate. Additionally, effects of viscous dissipation and radiation are considered. Similarity transformation is employed to convert respective model into similarity equations. The results generated by using bvp4c in MATLAB. Findings reveal that two solutions attained when both free stream plate move opposite directions. Moreover, domains velocity ratio parameter extended suction available. Besides, upsurge lead heat transfer enhancement. rise energy incorporated leads development fluid temperature as well thermal boundary layer. Meanwhile, offer good characteristics because synergistic effects. However, reduce Eckert number. first solution stable acceptable based on temporal stability analysis. Furthermore, critical/separation values physical parameters also reported. With these findings, optimized productivity will be achieved processes certain products can planned according desire output. significant preliminary provides future insight engineers scientist real applications.