This study aimed to prevent water flow in microcracks and simultaneously achieve CO capture during grouting (CCG). Using sodium silicate (SS) as the primary material, the microcracks were grouted by a two-step approach. The low-initial-viscosity (5 mPa s) SS was first saturated within the microcracks followed by CO injection at 2 MPa. Through CO dissolution, silica gel was developed and tolerated a hydraulic pressure of up to 5.5 MPa. The effects of aquifer ions (Na, Ca, Mg, HCO , and SO ) were equally evaluated at harsh conditions, and it was found that the strength of the silica gel was reduced, which was caused by salting out, low CO solubility, and precipitation. As a result, the hydraulic pressure was reduced to as low as 3 MPa. After 210 days, 16% of the silica gels (without ion inclusion) were reversible to the liquid phase, where a similar effect was found in the cases of Na and Mg ions. The degradation increased with more Ca ions (up to 55%) and decreased with more HCO and SO ions. Microcracks grouted with CCG extended the CO utilization in grouting application. Combined with the effect of dissolved ions, the proposed approach is feasible in the field implementation for underground engineering under water bodies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9366791 | PMC |
| http://dx.doi.org/10.1021/acsomega.2c00019 | DOI Listing |
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