Dynamics of Salt Precipitation at Pore Scale During CO2 Subsurface Storage in Saline Aquifer

Dynamics of Salt Precipitation at Pore Scale During CO2 Subsurface Storage in Saline Aquifer

Lifei Yan, Rustam Niftaliyev, Denis Voskov, Rouhi Farajzadeh

This study explores the impact of salt precipitation during CO2 injection in deep saline aquifers, focusing on how it reduces injectivity. Using microfluidic experiments and advanced imaging, the research reveals two distinct types of salt crystallization, influenced by local capillary-driven flow and water film dynamics. Key factors such as surface wettability and heterogeneity also shape salt precipitation patterns. The findings provide crucial insights into pore blockage mechanisms and the relationship between water and salt saturation, advancing understanding of the salt dry-out process at the pore scale during CO2 storage.

Journal of Colloid and Interface Science, Volume 678, Part B, (2025), Pages 419-430
Corresponding Author: Lifei Yan


InterPore Members can promote their publications to the community via the InterPore InJournals Sectionof the Newsletter. If you wish to do so, please submit your publication highlight to newsletter@InterPore.orgClearly indicate which of the authors is an InterPore member (or the institute with an Institutional Membership). Note that we will not review the entries nor does InterPore endorse the published work. Furthermore, we publish on a “submitted first, published first” basis. The highlighted publication should be no older than 6 months (available online).

The highlight should be short (max 100 words) and contain an illustration. Please note that we offer this opportunity exclusively to InterPore members. If you would like to become a member, please have a lookhere.