Characterization of transport processes:
concepts, quantities and methods of study,
balance of physical properties.

Momentum transfer:
fundamental equations of momentum transfer: momentum balance, forces and tensor of tension,
laminar flow of isotropic viscous liquids, initial and boundary conditions, application of dimensional analysis and homothety theory on dynamic equations,
liquid properties: characterization of non-newtonian liquids, laminar flow of non-newtonian liquids.

Energy transfer:
fundamental equations of energy transfer - balance of fundamental quantities, heat transfer in incompressible liquid, initial and boundary conditions,
heat conduction - one-directional heat conduction (stationary and non-stationary), multidimensional heat conduction (stationary and non-stationary);
heat convection - application of dimensional analysis and homothety theory on Fourier-Kirchhoff equation, heat tranfer in forced convection,
thermal radiation - fundamental laws of radiation, radiation between bodies.

Mass transfer:
fundamental equations of mass transfer - n-component continuum, balance of fundamental quantities, initial and boundary conditions,
molecular mass transfer: concentration diffusion, thermodiffusion, barodiffusion, diffusion with chemical reaction,
mass convection - mass transfer coefficient, application of homothety theory on on mass balance.

Analogy between mass, heat and momentum transfers.