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Learn to model electrochemical systems using continuum non-equilibrium thermodynamics in this 46-minute conference talk by Manuel Landstorfer from the Weierstraß-Institut für Angewandte Analysis und Stochastik. Explore the fundamental framework for modeling electrolytes, electrodes, and their interfaces through the lens of non-equilibrium thermodynamics. Discover how the continuum version of the second law of thermodynamics applies to both volumes and surfaces, and understand how general balance equations for charged mixtures can be closed using thermodynamic principles. Examine the modeling procedures for various physico-chemical aspects including compressibility and incompressibility in electrolytes, solvation effects, adsorption, and surface reactions. Gain insights into validation strategies with experimental data and observe numerical simulations that provide detailed understanding of the models while enabling model-based interpretation of experimental results. This presentation was delivered as part of IPAM's Transitioning from Deterministic to Stochastic Interaction Modeling in Electrochemistry Tutorials workshop.
