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Transport phenomena in electrolyte solutions: Nonequilibrium thermodynamics and statistical mechanics

Kara D. Fong, Helen K. Bergstrom, Bryan D. McCloskey, Kranthi K. Mandadapu

2020AIChE Journal86 citationsDOIOpen Access PDF

Abstract

Abstract The theory of transport phenomena in multicomponent electrolyte solutions is presented here through the integration of continuum mechanics, electromagnetism, and nonequilibrium thermodynamics. The governing equations of irreversible thermodynamics, including balance laws, Maxwell's equations, internal entropy production, and linear laws relating the thermodynamic forces and fluxes, are derived. Green–Kubo relations for the transport coefficients connecting electrochemical potential gradients and diffusive fluxes are obtained in terms of the flux–flux time correlations. The relationship between the derived transport coefficients and those of the Stefan–Maxwell and infinitely dilute frameworks are presented, and the connection between the transport matrix and experimentally measurable quantities is described. To exemplify the application of the derived Green–Kubo relations in molecular simulations, the matrix of transport coefficients for lithium and chloride ions in dimethyl sulfoxide is computed using classical molecular dynamics and compared with experimental measurements.

Topics & Concepts

Non-equilibrium thermodynamicsTransport phenomenaThermodynamicsElectrolyteEntropy (arrow of time)ChemistryFundamental thermodynamic relationStatistical physicsEntropy productionOnsager reciprocal relationsExtended irreversible thermodynamicsMatrix (chemical analysis)Statistical mechanicsMolecular dynamicsTransport theoryDetailed balanceConvection–diffusion equationPhysicsIonElectrochemistryIrreversible processChlorideClassical mechanicsSpectroscopy and Quantum Chemical StudiesChemical and Physical Properties in Aqueous SolutionsElectrostatics and Colloid Interactions
Transport phenomena in electrolyte solutions: Nonequilibrium thermodynamics and statistical mechanics | Litcius