Effect of viscous dissipation on the mixed convection heat transfer from an exponentially stretching surface
The continuous stretching surface heat transfer and flow field problem has many practical applications in industrial technology. In this research, effect of viscous dissipation on the mixed convection heat transfer from an exponentially stretching surface and presence of suction and injection has be...
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| Format: | Thesis |
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2010
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| Summary: | The continuous stretching surface heat transfer and flow field problem has many practical applications in industrial technology. In this research, effect of viscous dissipation on the mixed convection heat transfer from an exponentially stretching surface and presence of suction and injection has been studied. The influence of buoyancy along with viscous dissipation on the convective in the boundary layer region is analyzed in both assisting (A > 0) and opposing (A < 0) flow situations. The governing nonlinear partial differential equations are first transformed into ordinary differential equation using a self-similar transformation. The obtained ordinary differential equations are reduced to the system of first order equation. Then, the systems of first order equation are solved numerically using the Keller-box method, an unconditionally stable implicit finite difference scheme. Numerical results presented include the effect of temperature profile and velocity profile, as well as the skin friction and heat transfer coefficient on the parameters like mixed convection parameter, A,Prandtl number, Pr, Gebhart number, Gb and injection and suction parameter. It is shown that the velocity boundary layer thickness is increased with the increase of both mixed convection, X and viscous dissipation parameters, Pr and Gb. |
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