What does this research mean for the field?

A comprehensive benchmark dataset for machine learning surrogates of pore-scale CO2-water interaction has been created, consisting of 624 high-resolution 2D samples from numerical simulations. Novelty: ClaimNovelty.METHODOLOGICAL. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This research aims to create a comprehensive dataset for examining CO2-water interactions at the pore scale, benefiting geoscience applications.

March 8, 2026Open Access

A Benchmark Dataset for Machine Learning Surrogates of Pore-Scale CO2-Water Interaction

Key Points

This research aims to create a comprehensive dataset for examining CO2-water interactions at the pore scale, benefiting geoscience applications.
Generated dataset from high-fidelity numerical simulations.
Included 624 2D samples, each 512 × 512 in size.
Set resolution at 35μm and analyzed 100 time steps.
Infused various levels of heterogeneity with random grain size variation.
Dataset provides detailed temporal and spatial information.
Offers a robust testbed for developing and benchmarking machine learning models.

Abstract

Accurately capturing the complex interaction between CO2 and water in porous media at the pore scale is essential for various geoscience applications, including carbon capture and storage (CCS). We introduce a comprehensive dataset generated from high-fidelity numerical simulations to capture the intricate interaction between CO2 and water at the pore scale. The dataset consists of 624 2D samples, each of size 512 × 512 with a resolution of 35μm, covering 100 time steps under a constant CO2 injection rate. It includes various levels of heterogeneity, represented by different grain sizes with random variation in spacing, offering a robust testbed for developing predictive models. This dataset provides high-resolution temporal and spatial information crucial for benchmarking machine learning models.

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A Benchmark Dataset for Machine Learning Surrogates of Pore-Scale CO2-Water Interaction

Key Points

Abstract

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