Constraints in thermodynamic extremal principles for non-local dissipative processes

K. Hackl; Franz-Dieter Fischer; Jiří Svoboda

doi:10.1007/s00161-019-00846-3

Constraints in thermodynamic extremal principles for non-local dissipative processes

K. Hackl, Franz-Dieter Fischer, Jiří Svoboda

Chair of Mechanics (400)

Institute of Physics of Materials of the Academy of Sciences of the Czech Republic

Research output: Contribution to journal › Article › Research › peer-review

Abstract

Phenomena treated by non-equilibrium thermodynamics can be very effectively described by thermodynamic variational principles. The remarkable advantage of such an approach consists in possibility to account for an arbitrary number of constraints among state or kinetic variables stemming, e.g., from conservation laws or balance equations. As shown in the current paper, the variational principles can provide original evolution equations for the state variables implicitly respecting the constraints. Moreover, the variational approach allows formulating the problem directly in discrete state variables and deriving their evolution equations without the necessity to solve partial differential equations. The variational approach makes it also possible to use different kinetic variables in formulation of dissipation and dissipation function.

Original language	English
Article number	32
Pages (from-to)	1337-1345
Number of pages	9
Journal	Continuum Mechanics and Thermodynamics
Volume	32
Issue number	5
DOIs	https://doi.org/10.1007/s00161-019-00846-3
Publication status	Published - 1 Sept 2020

Keywords

Dissipative processes
Thermodynamic extremal principle
Variational principles

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AB - Phenomena treated by non-equilibrium thermodynamics can be very effectively described by thermodynamic variational principles. The remarkable advantage of such an approach consists in possibility to account for an arbitrary number of constraints among state or kinetic variables stemming, e.g., from conservation laws or balance equations. As shown in the current paper, the variational principles can provide original evolution equations for the state variables implicitly respecting the constraints. Moreover, the variational approach allows formulating the problem directly in discrete state variables and deriving their evolution equations without the necessity to solve partial differential equations. The variational approach makes it also possible to use different kinetic variables in formulation of dissipation and dissipation function.

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Constraints in thermodynamic extremal principles for non-local dissipative processes

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Keywords

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