Steady thermodynamic fundamental relation for the interacting system in a heat flow

Abstract

There is a long-standing question of whether it is possible to extend the formalism of equilibrium thermodynamics to the case of non-equilibrium systems in steady states. We have made such an extension for an ideal gas in a heat flow [Hoyst et al., J. Chem. Phys. 157, 194108 (2022)]. Here we investigate whether such a description exists for the system with interactions: the Van der Waals gas in a heat flow. We introduce the parameters of state, each associated with a single way of changing energy. The first law of non-equilibrium thermodynamics follows from these parameters. The internal energy U for the non-equilibrium states has the same form as in equilibrium thermodynamics. For the Van der Waals gas, U(S*, V, N, a*,b* ) is a function of only 5 parameters of state (irrespective of the number of parameters characterizing the boundary conditions): the entropy S*, volume V, number of particles N, and the rescaled Van der Waals parameters a*, b*. The state parameters, a*, b*, together with S*, determine the net heat exchange with the environment.