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Nonequilibrium thermodynamics of non-ideal chemical reaction networks

Francesco Avanzini, Emanuele Penocchio, Gianmaria Falasco, Massimiliano Esposito

2021The Journal of Chemical Physics40 citationsDOIOpen Access PDF

Abstract

All current formulations of nonequilibrium thermodynamics of open chemical reaction networks rely on the assumption of non-interacting species. We develop a general theory that accounts for interactions between chemical species within a mean-field approach using activity coefficients. Thermodynamic consistency requires that rate equations do not obey standard mass-action kinetics but account for the interactions with concentration dependent kinetic constants. Many features of the ideal formulations are recovered. Crucially, the thermodynamic potential and the forces driving non-ideal chemical systems out of equilibrium are identified. Our theory is general and holds for any mean-field expression of the interactions leading to lower bounded free energies.

Topics & Concepts

Non-equilibrium thermodynamicsThermodynamicsChemical thermodynamicsChemical reactionExtended irreversible thermodynamicsStatistical physicsConsistency (knowledge bases)ChemistryChemical equilibriumChemical kineticsKinetic energyBounded functionKineticsRate equationThermodynamic processIdeal (ethics)Kinetic theoryThermodynamic systemThermodynamic potentialAutocatalytic reactionPhysicsReaction rateThermodynamic equilibriumThermodynamic equationsWork (physics)General theoryChemical reaction kineticsEquilibrium thermodynamicsCurrent (fluid)Thermodynamic stateFundamental thermodynamic relationAdvanced Thermodynamics and Statistical MechanicsGene Regulatory Network AnalysisControl and Stability of Dynamical Systems
Nonequilibrium thermodynamics of non-ideal chemical reaction networks | Litcius