Flow and Heat Transfer Analysis on Reiner-Philippoff Fluid Flow over a Stretching Sheet in the Presence of First and Second Order Velocity Slip and Temperature Jump Effects

Most of the fluid used in industrial application (i.e. Oils and gas industry, food manufacturing, lubrication biomedical) do not conform to Newtonian postulate. In contrast fluid, viscosity can change when under force either more liquid or solid dependent on shear rate history. This behaviour fluids is commonly known as non-Newtonian fluid. The so widespread nature technology resulting very high interest investigating among scientist. Reiner-Philippoff one types models that exhibiting dilatant, pseudoplastic behaviors. Hence, this study devoted analyze flow heat transfer with presence first second order velocity slip together temperature jump effects over a stretching sheet. Partial differential equations continuity, momentum energy were transformed into similarity equations. obtained then solved via bvp4c function MATLAB software. For validation purpose, present model its numerical solution compared previous established solutions limiting case where condensed be identical reported turn strong agreement. consequences pertinent parameters fluid’s characteristics are analyzed details through plotted graphic visuals tabular form.