| Abstract |
We propose an innovative containment strategy based on time-dependent soft solids, namely 2 wt% Laponite suspensions, to reinforce natural subsurface seals and engineer flow barriers, with an eye toward making H2 subsurface storage scalable and geographically agnostic. This suspension can be injected at its initial low viscosity and elasticity into a porous medium, allowing for easy pumping and targeted delivery. Once inside the target zone, it matures into a soft solid with much higher viscosity and elasticity, acting as a potential flow barrier. We discuss the rheological properties of the suspensions and demonstrate that hydrogen does not adversely affect their microstructure, but rather increases the suspensions’ viscosity and elasticity. Moreover, the suspensions enhance the rock samples’ compressive strength, while hydrogen exposure increases their stiffness and ductility. The ability of rock samples saturated with the suspensions to contain higher injected gas pressures is enhanced by aging at higher temperatures. |
| Authors |
Behbood Abedi   , Alirza Orujov , Ehsan Dabbaghi , Kam Ng , J.P. Ackerman , Saman A. Aryana
|
| Journal Info |
Elsevier BV | International Journal of Hydrogen Energy , vol: 82
, pages: 1001 - 1014
|
| Publication Date |
8/6/2024 |
| ISSN |
0360-3199 |
Type |
article |
| Open Access |
closed
|
| DOI |
https://doi.org/10.1016/j.ijhydene.2024.07.336 |
| Keywords |
Containment (computer programming) (Score: 0.6100749)
|
