Darcy-Forchheimer flow of maxwell nanofluid flow over a porous stretching sheet with Arrhenius activation energy and nield boundary conditions

This work investigates the effect of heat transfer and mass on convective Darcy-Forchheimer flow a Maxwell nanofluid through linear porous stretched sheet. In addition, impacts chemical reaction, thermal conductivity, thermophoresis are investigated. The analysis in presence nanoparticles fluid under nield conditions is examined. To convert governing PDEs velocity, temperature nano concentration with activation energy into couple nonlinear ODEs we apply appropriate similarity variables. Shooting method applied to solve set highly ordinarily differential equations numerically obtained numerical results associated those gained by help MATLAB bvp4c solver Mathematica ND-solve built command. influence prominent parameters interest like effusion, Prandtl number, Biot radiative flux Brownian motion, Lewis parameter, magnetic Reynolds on, non-dimension distribution has been deliberated features also encompassed. values for defined profiles presented graphs tables.