Bhati et al. (2024): Ultrafast Formation of Carbon Dioxide Hydrate Foam for Carbon Sequestration
Awan Bhati, Mark Hamalian, Palash V. Acharya, Vaibhav Bahadur IN : ACS Sustainable Chemistry & Engineering, https://doi.org/10.1021/acssuschemeng.4c03809
The auhators report ultrafast formation of carbon dioxide (CO2) hydrate foam without the use of any conventional chemical promoters or mechanical agitation. Our 6× enhancement in the CO2 sequestration rate (based on net gas consumption) results from the high flow rate sparging of CO2 gas in water in an open system (constant gas inflow/outflow) in the presence of magnesium. This approach continuously renews the gas–water–hydrate interface, thereby increasing the growth rate. The CO2 gas consumption rate (for hydrate foam formation) and foam composition (hydrate, CO2 dissolved in water, trapped CO2 gas) are experimentally quantified versus various parameters, including thermodynamic (pressure), CO2 flow-related parameters (flow rate, duration), water composition, and quantity of magnesium. The maximum measured CO2 sequestration rate (time-averaged) of 1276.5 g h–1 L–1 MPa–1 is 6 times higher than the fastest reported instantaneous rate.