Microbially induced carbonate precipitation for soil improvement : insights from a meter-scale radial grouting trial

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Sang, Guijie and Lunn, Rebecca J. and Minto, James M. and El Mountassir, Grainne (2024) Microbially induced carbonate precipitation for soil improvement : insights from a meter-scale radial grouting trial. Biogeotechnics. 100157. ISSN 2949-9291 (https://doi.org/10.1016/j.bgtech.2024.100157)

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Abstract

Despite the growing interest in microbially induced carbonate precipitation (MICP) for geotechnical applications, reports on meter-scale MICP trials for soil improvement remain limited, and controlling and predicting cementation efficiency on a large-scale is even more scarce. This study presented a meter-scale improvement of a poorly-graded sand (initial dry density: 1581 kg/m3, porosity: 40%) through MICP in a cylindrical cell (diameter: 1 m; thickness: 15 cm) using a radial flow injection strategy, which involves injecting fluids radially from a single well located at the center while maintaining a constant hydraulic head at the outer boundary. Nine cycles of a two-phase MICP treatment were applied: Phase 1- injection of 0.7 pore volumes (PVs) of bacterial solution and 1-L water pulse; Phase 2- injection of 1.4 PVs of 0.5 M cementing solution in two stages (i) 0.7 PV injection two hours after the bacteria were injected, and (ii) a further 0.7 PV injection the following morning after an overnight static reaction period. We observed non-uniform CaCO3 precipitations along the distance from the central well and over the depth, which was induced by the decreasing flux towards the outer boundary under the radial flow pattern, along with influences from layered soil packing and hydraulically induced flow channels. CaCO3 precipitation with distance from the central well follows a symmetric Gaussian-type distribution, with sufficient cementation to retrieve full-length cores occurring near the midpoint between the central well and the outer boundary. The unconfined compressive strengths of the full-length cores were in the range of 1.2-6.8 MPa with CaCO3 contents of 0.08-0.17. Our study suggests that cementation level under radial flow conditions is controllable on a large scale and highly dependent on the injection volume of both bacteria and rinsing water pulse. The study provides a solid baseline for predicting and controlling CaCO3 distribution in large-scale MICP soil improvement using a two-phase radial injection approach.

ORCID iDs

Sang, Guijie ORCID logoORCID: https://orcid.org/0000-0002-2379-7521, Lunn, Rebecca J. ORCID logoORCID: https://orcid.org/0000-0002-4258-9349, Minto, James M. ORCID logoORCID: https://orcid.org/0000-0002-9414-4157 and El Mountassir, Grainne ORCID logoORCID: https://orcid.org/0000-0003-4213-8182;
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