1.Headline laws and analogies of transport phenomena.
2.Transfer of momentum, Euler, Navier Stokes and Bernoulli equation.
3.Transfer of energy, shell balance.
4.Fourier Kirchhoff equation, the choice of initial and boundary conditions.
5.Transfer of mass I. Fick's law.
6. II. Fick's law of diffusion,
7.Theory similarities and modelling sentence similarity, basic methods of similarity theory.
8. Analysis of momentum, energy and mass
9.Non-stacionary heat conduction, analytical solutions.
10.Numerical methods for solving unsteady heat transfer, explicit and implicit method.
11.Natural and forced convection.
12.Heat exchangers, numerical solutions of heat transfer, plate heat exchangers.
12.Boliling heat transfer, types and modes of boiling.
13.Heat transfer during condensation.
14.Transfer phenomena at the interface.
15th Mathematical modelling of transport phenomena, solving the model calculations Fluent.
2.Transfer of momentum, Euler, Navier Stokes and Bernoulli equation.
3.Transfer of energy, shell balance.
4.Fourier Kirchhoff equation, the choice of initial and boundary conditions.
5.Transfer of mass I. Fick's law.
6. II. Fick's law of diffusion,
7.Theory similarities and modelling sentence similarity, basic methods of similarity theory.
8. Analysis of momentum, energy and mass
9.Non-stacionary heat conduction, analytical solutions.
10.Numerical methods for solving unsteady heat transfer, explicit and implicit method.
11.Natural and forced convection.
12.Heat exchangers, numerical solutions of heat transfer, plate heat exchangers.
12.Boliling heat transfer, types and modes of boiling.
13.Heat transfer during condensation.
14.Transfer phenomena at the interface.
15th Mathematical modelling of transport phenomena, solving the model calculations Fluent.