TY - JOUR
TI - The MHD viscoelastic nanofluid-flow upon an inclined stretching sheet with radiation, chemical reaction and multiple slip effects-homotopy analysis method
AU - Pennelli Saila Kumari
AU - Shaik Mohammed Ibrahim
AU - Prathi Vijaya Kumar
JN - Thermal Science
PY - 2025
VL - 29
IS - 4
SP - 3293
EP - 3306
PT - Article
AB - An investigation into the computational analysis of MHD flow of a viscoelastic nanofluid (Walters’ B’ model) over an inclined stretching surface is being carried out in this study. The investigation takes into account numerous slip effects, thermal radiation, and chemical processes. In order to generate the governing PDE, similarity transformations are utilized. These equations are then translated into non-linear ODE. Utilising the homotopy analysis method is the means by which the numerical solution is produced. For the purpose of illustrating the influence of various flow parameters on the effects of magnetic field, thermal radiation, viscoelasticity, chemical reaction rate, and slip effects on momentum, thermal, and solutal curves, a graphical display of the numerical examination is performed at the end of the process. Significant affects of these parameters on the properties of fluid-flow, heat and mass transfer are demonstrated by the findings, which have significance for applications in both the industrial and biological fields.