Wettability, pore occupancy, connectivity and Ostwald ripening of nitrogen, carbon dioxide, and hydrogen in carbonate rocks: A comparative study
Ahmed AlZaabi, Hussain M. Alzahrani, Abdulla Alhosani, Branko Bijeljic, Martin J. Blunt
Abstract
High-resolution three-dimensional X-ray imaging was employed to evaluate the injection of nitrogen (N 2 ), carbon dioxide (CO 2 ), and hydrogen (H 2 ) in a reservoir carbonate rock. The imaging data were analyzed to determine key properties, including wettability, gas saturation, pore occupancy, ganglia size, and connectivity throughout the sample. The experiment was conducted on a water-wet carbonate rock saturated with synthetic brine prior to and between each gas injection cycle. The work demonstrates key differences in the behavior of the gases: H 2 undergoes more significant rearrangement and improved connectivity after injection compared to N 2 , while CO 2 remains well connected but exhibits the least rearrangement. This is advantageous of hydrogen withdrawal, whereas improved connectivity is not favorable for long-term CO 2 sequestration. These findings are critical when considering the design and optimization of subsurface storage projects, where enhanced gas mobility benefits H 2 recovery but poses risks for CO 2 leakage.