Abstract The aim of a present article is to investigate the laminar unsteady two‐dimensional boundary layer flow nanofluid with Stefan blowing and slip effect. First, governing equations are converted in ordinary form differential (ODEs) from partial using appropriate coordinate transformations. obtained ODEs then solved by applying shooting method Runge‐Kutta fourth order implementation Maple software. influences different controlling dimensionless parameters over velocity, temperature,...

Abstract A steady two‐dimensional Casson nanofluid flow over the permeable stretching/shrinking sheet along viscous dissipation and chemical reaction is studied in this article. The convective boundary condition incorporated energy equation. Similarity variables are applied to convert governing partial differential equations into ordinary equations. numerical solutions of obtained by using shooting method with Maple implementation. findings indicate occurrence dual for a certain range...

Purpose The purpose of this paper is to theoretically investigate the steady two‐dimensional boundary‐layer flow past a moving semi‐infinite flat plate in water‐based nanofluid containing three different types nanoparticles: copper (cuprum) Cu, alumina (aluminium oxide) Al 2 O 3 , and titania (titanium dioxide) TiO . effects parameter λ as well solid volume fraction φ on heat transfer characteristics are studied. Taking into account rising demands modern technology, including chemical...

The present study is focused on the presentation of a numerical solution for copper-water nanofluid through stretching channel with spherical and cylindrical shape nanoparticles. analysis in walls under slip effects made by introducing conservation equation nanoparticle volume fraction into Hamilton-Crosser’s model. Governing partial differential equations are transformed nonlinear ordinary applying similarity transformation then solved help shooting method. different physical parameters...

A numerical investigation is made to determine the occurrence of multiple solutions MHD Casson fluid in a porous channel. Governing partial differential equation proposed problem converted into nonlinear ordinary equations by using similarity transformation. Numerical technique known as shooting method used investigate existence for variations different parameters. Effects physical parameters on velocity profile, temperature, concentration, and skin friction are presented pictorial...

The purpose of the present paper is to investigate micropolar nanofluid flow on permeable stretching and shrinking surfaces with velocity, thermal concentration slip effects. Furthermore, radiation effect has also been considered. Boundary layer momentum, angular heat mass transfer equations are converted non-linear ordinary differential (ODEs). Then, obtained ODEs solved by applying shooting method in results, dual solutions certain ranges pertinent parameters both cases surfaces. Due...

A mathematical analysis is performed to study the flow and heat transfer phenomena of Casson based nanofluid with effects porosity parameter viscous dissipation over exponentially permeable stretching shrinking surface. The considered comprises as a base fluid that contains silver ( Ag) copper Cu ) solid nanoparticles. system nonlinear governing partial differential equations (PDEs) are converted into ordinary (ODEs) by applying similarity transformation. obtained ODEs solved using shooting...

A study has been carried out to examine the occurrence of multiple solutions for Copper-Water nanofluids flows in a porous channel with slowly expanding and contracting walls. The governing equations are first transformed similarity by using transformation. resulting then solved numerically shooting method. effects wall expansion ratio solid volume fraction on velocity temperature profile have studied. Numerical results presented graphically variations different physical parameters. reveals...

In this paper, we studied the 2D steady laminar boundary layer flow and heat transfer of Casson based nanofluid over an exponentially vertical stretching shrinking sheet using one phase model.The thermal radiation source/sink parameters are incorporated in equation slip for velocity temperature considered conditions.The similarity variables have been used to convert governing equations as a system partial differential ordinary equations.The transformed then solved by applying shooting...

The most challenging task dealing with permutation is when the element large. In this paper, a new algorithm for listing down all permutations n elements developed based on distinct starter sets. Once sets are obtained, each set then cycled to obtain first half of permutations. complete list achieved by reversing order permutation. has advantages over other methods due its simplicity and easy use.