Advanced Thermodynamics

Course guarantor:

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Department of Fluid Dynamics and Thermodynamics

Synopsis:

Fundamentals and definitions. Molecular theory of gases.Derivation of relations for important statete and trnsport quantities.

Derivation of properties of ideal gas. More complex models. Van der Waals´s gas.

More complex state equations. Szeam, cooling fluids.

Fundamentals of fenomenological thermodynamics. Fundamental theorems and laws. Mathematical fundamentals of thermodynamics.

Reversible and irreversible processes, consequences, possibilities of solution.

Basic thermodynamic processes in real gas. One- and multicomponent systems. Real mixtures of real gases.

Volumetrical and heat effects at mixing. Chemical reactions.

Phase exchanges. Solutions for multicomponent systems.

Fundamentals of gas dynamics. Basic definitions and laws. Basic 1D steady and unsteady flow. Solution by means of dynamic functions. Solution in real gas, namely in steam.

Multidimensional cases. Solution in subsonic field.

Supersonic flows, application in external aerodynamics.

Fundamentals of hypersonic flow.

Fundamentals of thermokinetics and transport effects, cases of simultaneous heat and mass transfer. Industry applications.

Requirements:

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Study materials:

G. A. Hawkins: Thermodynamics , John Wiley and Sons, N.Y.

M.J.Moran, H.N.Shapiro: Fundamentals of Engineering Thermodynamics, John Wiley and Sons, N.Y.

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans: