الفهرس | Only 14 pages are availabe for public view |
Abstract In the preceding chapters, we have studied heat and mass transfer effects on boundary layer flow of two-composite nanofluid past an infinite surface in the presence of another outer operators such as thermal radiation for all and in particular the magnetic field, chemical reaction, heat generation, Joul heating, viscous thermal dissipation, Brownian motion, and thermophesis effects. In the second chapter, we have studied the effect of thermal radiation and first order chemical reaction on heat and mass transfer of unsteady free convection boundary layer flow past an infinite inclined oscillating surface with Newtonian heating under the usual Boussinesq assumption. An exact solution is obtained in the closed form by using the Laplace transform technique.. In the third chapter, we have studied the effects of transverse magnetic field, thermal radiation, and heat generation on heat transfer of unsteady free convection boundary layer flow of a nanofluid past as the same an infinite inclined oscillating surface with constant temperature. Also, an exact solution is obtained in the closed form by using the Laplace transform technique. The obtained solutions satisfy governing equations as well as the boundary conditions and they are discussed through graphs for different numerical values of parameters entered into the problem. Multiple conclusions can be drawn from the results obtained such as the increase or decrease of the dimensionless velocity, temperature, and concentration profiles with the increase or decrease of the dimensionless numbers and parameters. |