Poly-and perfluoroalkyl substances (PFAS) have been widely used worldwide over the last
seven decades in> 200 diverse industrial applications. Thousands of different PFAS have …

Solute transport in partially-saturated porous media plays a key role in multiple applications
across scales, from the migration of nutrients and contaminants in soils to geological energy …

Dissolution trap** is one of the crucial trap** mechanisms for geological carbon storage
in deep saline aquifers. The injected supercritical CO2 (scCO2) flow and dissolution …

DeePore 2 is a deep learning workflow for rapid estimation of a wide range of porous
material properties based on the binarized micro–tomography images. By combining …

Simulating solute transport in heterogeneous porous media poses computational
challenges due to the high-resolution meshing required for traditional solvers. To overcome …

The traditional model of solid dissolution in porous media consists of three dissolution
regimes (uniform, compact, wormhole)—or patterns—that are established depending on the …

Air–water interfacial retention of poly-and perfluoroalkyl substances (PFASs) is increasingly
recognized as an important environmental process. Herein, column transport experiments …

Imaging methods have broad applications in geosciences. Scanning electron microscopy
(SEM) and micro-CT scanning have been applied for studying various geological problems …

Geological carbon sequestration is one of the key effective technologies proposed to reduce
the atmospheric CO 2, which is essential to achieve the net zero-emission target. Injection of …

PFAS are emerging contaminants widespread in the environment. As surfactants, PFAS tend
to accumulate at solid–water and air–water interfaces in the vadose zone, which may pose …