(451b) Designing Molten Salt Eutectics: A Combined Thermodynamic Modeling and Machine Learning Approach
AIChE Annual Meeting
2021
2021 Annual Meeting
Engineering Sciences and Fundamentals
Thermophysical Properties: Theory and Experiments for Charged Systems
Wednesday, November 10, 2021 - 8:16am to 8:32am
Designing stable electrolytes with target properties is an important challenge in realizing next generation energy storage devices. Molten salt eutectics-based electrolytes are known for their stability with minimal parasitic reactions when compared to traditional organic electrolytes and are an attractive option for different battery chemistries. The operating temperature of the molten salt batteries depends on the melting temperature of the eutectic and hence there is a necessity to discover novel low melting temperature molten salt eutectic mixtures for energy storage applications. In this work we develop a high throughput computational screening approach for molten salt mixtures using thermodynamic modeling and machine learning (ML). COSMO-SAC model and ML approaches were independently developed based on the existing experimental data and these models were further used to predict the eutectic melting temperature and composition of several new binary, ternary, and quaternary mixtures. We show that combining ML and thermodynamic modeling strategies is effective in exploring the vast design space of molten salt mixtures.