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Thermodynamics-consistent graph neural networks

Jan G. Rittig, Alexander Mitsos

2024Chemical Science33 citationsDOIOpen Access PDF

Abstract

We propose excess Gibbs free energy graph neural networks (GE-GNNs) for predicting composition-dependent activity coefficients of binary mixtures. The GE-GNN architecture ensures thermodynamic consistency by predicting the molar excess Gibbs free energy and using thermodynamic relations to obtain activity coefficients. As these are differential, automatic differentiation is applied to learn the activity coefficients in an end-to-end manner. Since the architecture is based on fundamental thermodynamics, we do not require additional loss terms to learn thermodynamic consistency. As the output is a fundamental property, we neither impose thermodynamic modeling limitations and assumptions. We demonstrate high accuracy and thermodynamic consistency of the activity coefficient predictions.

Topics & Concepts

Artificial neural networkGraphComputer scienceTheoretical computer scienceChemistryArtificial intelligenceMachine Learning in Materials ScienceProtein Structure and DynamicsPhase Equilibria and Thermodynamics
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