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Last update: Marcela Búryová (27.05.2021)
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Last update: Marcela Búryová (27.05.2021)
To provide an overview of advanced theoretical approaches to descriptions of linear and nonlinear nonequilibrium processes. To comparison various methods and approximations and to illustrate their validity on simple exactly solvable models. |
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Last update: RNDr. Artem Ryabov, Ph.D. (04.10.2021)
[1] D. Jou, J. Casas-Vázquez, G. Lebon: Extended Irreversible Thermodynamics (2010)
[2] G. Lebon, D. Jou, J. Casas-Vázquez: Understanding Non-Equilibrium Thermodynamics (2008)
[3] I. Prigogine: Introduction to Thermodynamics of Irreversible Processes (1968)
[4] S.R.de Groot, P.Mazur: Non-Equilibrium Thermodynamics (1962)
[5] I.Dvořák, F.Maršík, L.Andrej: Biotermodynamika, Praha 1982
[6] I.Samohýl: Racionální termodynamika chemicky reagujících směsí (1982)
[7] P.Glansdorf, I.Prigogina: Thermodynamic Theory of Structure, Stability and Fluctuations (1971) |
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Last update: RNDr. Artem Ryabov, Ph.D. (04.10.2021)
Přednáška nebo kontrolovaná četba. |
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Last update: RNDr. Artem Ryabov, Ph.D. (04.10.2021)
1) Linear theory: Basic postulates and concepts (entropy production, Onsager's reciprocity relations), various formulations for continuous systems. Conservation laws and balance equations. Relaxation processes. Variational principles. Generalization to small systems. Korteweg, Cahn-Hilliard.
2) Nonlinear theory: Prigogine's evolution criterion, conditions of stability. Phenomenological chemical kinetics. Nonlinear oscillations and self-organized dissipative structures.
3) Rational thermodynamics (Truesdell). Extended rational thermodynamics (Müller, Ruggeri). Extended nonequilibrium thermodynamics (Jou). Applications (EIT).
4) Introduction to GENERIC. |