Boundary controlled irreversible port-Hamiltonian systems

Boundary controlled irreversible port-Hamiltonian systems (BC-IPHS) defined on a 1-dimensional spatial domain are defined by extending the formulation of reversible BC-PHS to irreversible thermodynamic systems controlled at the boundaries of their spatial domain. The structure of BC-IPHS has clear physical interpretation, characterizing the coupling between energy storing and energy dissipating elements. By extending the definition of boundary port variables of BC-PHS to deal with the irreversible energy dissipation, a set of boundary port variables are defined such that BC-IPHS are passive with respect to a given set of conjugated inputs and outputs. As for finite dimensional IPHS, the first and second laws of Thermodynamics are satisfied as a structural property of the system. Several examples are given to illustrate the proposed approach. (c) 2021 Elsevier Ltd. All rights reserved.

Automated summary

Boundary controlled irreversible port-Hamiltonian systems (BC-IPHS) are defined on a 1-dimensional spatial domain, characterized by the coupling between energy storing and energy dissipating elements. By extending the definition of boundary port variables, BC-IPHS can be passive with respect to a given set of conjugated inputs and outputs, while satisfying the first and second laws of Thermodynamics as a structural property of the system.