Intrinsic properties of conservation-dissipation formalism of irreversible thermodynamics

Abstract

This paper proposes four fundamental requirements for establishing PDEs (partial differential equations) modelling irreversible processes. We show that the PDEs derived via the CDF (conservation-dissipation formalism) meet all the requirements. In doing so, we find useful constraints on the freedoms of CDF and point out that a shortcoming of the formalism can be remedied with the help of the Maxwell iteration. It is proved that the iteration preserves the gradient structure and strong dissipativeness of the CDF-based PDEs. A refined formulation of the second law of thermodynamics is given to characterize the strong dissipativeness, while the gradient structure corresponds to nonlinear Onsager relations. Further advantages and limitations of CDF will also be presented. This article is part of the theme issue 'Fundamental aspects of nonequilibrium thermodynamics'.

Keywords: compatibility; hyperbolic partial differential equations; non-equilibrium thermodynamics; nonlinear Onsager relations; stability criteria.