Abstract: Infinite dimensional Port Hamiltonian representation of non isothermal chemical reactors is proposed in the case of mass transport diffusion and chemical reaction without convection. The proposed approach uses thermodynamic variables. The presentation is given for one dimensional spatial domain by using the internal energy and the opposite of the entropy as hamiltonian functions
International audienceThis paper proposes a thermodynamical pseudo Hamiltonian formulation of Contin...
Reaction-diffusion systems model the evolution of the constituents distributed in space under the in...
In dit proefschrift worden verschillende benaderingen gebruikt voor de meetkundige modellering en an...
International audienceInfinite dimensional Port Hamiltonian representation of non isothermal chemica...
Motivated by recent progress on the port-Hamiltonian formulation of isothermal chemical reaction net...
Inspired by great advances on the mathematical structure of chemical reaction networks governed by m...
Reaction-diffusion systems model the evolution of the constituents distributed in space under the in...
This paper shows that any thermodynamic potential fulfilling some thermodynamic stability criterion ...
International audience<span lang="EN-US">In this talk we extend infinite dimensional port-H...
In this manuscript, a general formulation of 3-dimensional compressible fluids based on the port-Hami...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
International audienceAs motivated by the use of physical variables as Hamiltonian storage functions...
International audienceIn this paper we consider the physical-based modeling of 3D and 2D Newtonian f...
International audienceThis paper proposes a thermodynamical pseudo Hamiltonian formulation of Contin...
Reaction-diffusion systems model the evolution of the constituents distributed in space under the in...
In dit proefschrift worden verschillende benaderingen gebruikt voor de meetkundige modellering en an...
International audienceInfinite dimensional Port Hamiltonian representation of non isothermal chemica...
Motivated by recent progress on the port-Hamiltonian formulation of isothermal chemical reaction net...
Inspired by great advances on the mathematical structure of chemical reaction networks governed by m...
Reaction-diffusion systems model the evolution of the constituents distributed in space under the in...
This paper shows that any thermodynamic potential fulfilling some thermodynamic stability criterion ...
International audience<span lang="EN-US">In this talk we extend infinite dimensional port-H...
In this manuscript, a general formulation of 3-dimensional compressible fluids based on the port-Hami...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
International audienceAs motivated by the use of physical variables as Hamiltonian storage functions...
International audienceIn this paper we consider the physical-based modeling of 3D and 2D Newtonian f...
International audienceThis paper proposes a thermodynamical pseudo Hamiltonian formulation of Contin...
Reaction-diffusion systems model the evolution of the constituents distributed in space under the in...
In dit proefschrift worden verschillende benaderingen gebruikt voor de meetkundige modellering en an...