Maria Kirn Hameed scite author profile

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

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Maria Kirn Hameed

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

Arrhenius energy and heat transport activates effect on gyrotactic microorganism flowing in maxwell bio-nanofluid with nield boundary conditions

Darcy-Forchheimer flow of maxwell nanofluid flow over a Porous Stretching Sheet with Arrhenius Activation Energy and Nield Boundary Conditions

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