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Micro and Nanofluid Convection with Magnetic Field Effects for Heat and Mass Transfer Applications using MATLAB examines the performance of micro and nanofluids with various physical effects such as magnetic field, slip effects, radiation and heat sources. Heat and mass transfer enhancement techniques are widely used in many applications in the heating and cooling or freezing process to make possible a reduction in weight and size or enhance performance during heat and mass exchanges. The book covers the two categories of flow techniques, active and passive. It discusses various considerations in the engineering sciences in the melting process, polymer industry and in metallurgy.
To be more precise, it may be pointed out that many metal surgical developments involve the cooling of continuous strips or filaments by drawing them through a quiescent fluid, and in that process of drawing, these strips are sometimes stretched. In all these cases, the properties of the final product depend, to a great extent, on the rate of cooling by drawing such strips in an electrically conducting fluid subject to a magnetic field and thermal radiation.
Background to micro- and nanofluids.
Mathematical modeling of equations of couple stress fluid in respective coordinates.
Mathematical model of steady incompressible nanofluid for heat transfer applications using MATLABs.
Mathematical model for an incompressible unsteady nanofluid flow with heat transfer application.
Mathematical model for incompressible unsteady nanofluid fluid flow with heat and mass transfer application.
Stefan blowing effect on nanofluid flow over a stretching sheet in the presence of a magnetic dipole.
Nonlinear unsteady convection on micro and nanofluids with Cattaneo-Christov heat flux.
Comparison of steady incompressible micropolar and nanofluid flow with heat and mass transfer applications.
Comparison of unsteady incompressible micropolar and nanofluid flow with heat transfer applications.
Implementation of boundary value problems in using MATLAB