Hayat T.Pakdemirli M.Aksoy Y.2024-07-222024-07-2220131300686Xhttp://akademikarsiv.cbu.edu.tr:4000/handle/123456789/17520Boundary layer equations are derived for the first time for the Powel-Eyring fluid model, a non-Newtonian model proposed for pseudoplastic behavior. Using a scaling symmetry of the equations, partial differential system is transferred to an ordinary differential system. Resulting equations are numerically solved using a finite difference algorithm. Effects of non-Newtonian parameters on the solutions are discussed.EnglishAll Open Access; Gold Open AccessNon Newtonian flowNon Newtonian liquidsOrdinary differential equationsBoundary layer equationsBoundary layer theoryDifferential systemsEyring fluidFinite-difference algorithmsNon-Newtonian fluidsPartial differentialSimilarity transformationBoundary layersArticle10.3390/mca18010062