Abstract

An infinite dimensional formulation of IPHS is proposed for a general class of mass and heat diffusion processes. structure. of the system is derived from the expression of the internal entropy creation, and just, as for the lumped case the IPHS structure is expressed as a function of the distributed thermodynamic driving forces and a positive definite function containing the thermodynamic parameters of the different diffusion processes. The distributed thermodynamic driving forces are expressed as the evaluation of the internal energy density and entropy density ail a pseudo-Poisson bracket defiined by the skew-adjoint, differential operator defining the coupling between the different energy domains. This is analogous to the case of lumped IPHS, where the pseudo-Poisson bracket is defined not by differential operators but by constant (canonical) skew-symmetric matrices. (C) 2016, IFAC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights reserved.