Laboratory-scale model of carbon dioxide deposition for soil stabilisation
Olivine sand is a natural mineral, which, when added to soil, can improve the soil's mechanical properties while also sequester carbon dioxide (CO2) from the surrounding environment. The originality of this paper stems from the novel two-stage approach. In the first stage, natural carbonation o...
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2016
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my.upm.eprints.453062021-04-18T08:29:17Z http://psasir.upm.edu.my/id/eprint/45306/ Laboratory-scale model of carbon dioxide deposition for soil stabilisation Fasihnikoutalab, Mohammad Hamed Asadi, Afshin Kim Huat, Bujang Westgate, Paul Ball, Richard J. Pourakbar, Shahram Olivine sand is a natural mineral, which, when added to soil, can improve the soil's mechanical properties while also sequester carbon dioxide (CO2) from the surrounding environment. The originality of this paper stems from the novel two-stage approach. In the first stage, natural carbonation of olivine and carbonation of olivine treated soil under different CO2 pressures and times were investigated. In this stage, the unconfined compression test was used as a tool to evaluate the strength performance. In the second stage, details of the installation and performance of carbonated olivine columns using a laboratory-scale model were investigated. In this respect, olivine was mixed with the natural soil using the auger and the columns were then carbonated with gaseous CO2. The unconfined compressive strengths of soil in the first stage increased by up to 120% compared to those of the natural untreated soil. The strength development was found to be proportional to the CO2 pressure and carbonation period. Microstructural analyses indicated the presence of magnesite on the surface of carbonated olivine-treated soil, demonstrating that modified physical properties provided a stronger and stiffer matrix. The performance of the carbonated olivine-soil columns, in terms of ultimate bearing capacity, showed that the carbonation procedure occurred rapidly and yielded a bearing capacity value of 120 kPa. Results of this study are of significance to the construction industry as the feasibility of carbonated olivine for strengthening and stabilizing soil is validated. Its applicability lies in a range of different geotechnical applications whilst also mitigates the global warming through the sequestration of CO2. Elsevier 2016-04 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/45306/1/OLI.pdf Fasihnikoutalab, Mohammad Hamed and Asadi, Afshin and Kim Huat, Bujang and Westgate, Paul and Ball, Richard J. and Pourakbar, Shahram (2016) Laboratory-scale model of carbon dioxide deposition for soil stabilisation. Journal of Rock Mechanics and Geotechnical Engineering, 8 (2). pp. 178-186. ISSN 1674-7755 https://www.sciencedirect.com/science/article/pii/S1674775515001365 10.1016/j.jrmge.2015.11.001 |
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Olivine sand is a natural mineral, which, when added to soil, can improve the soil's mechanical properties while also sequester carbon dioxide (CO2) from the surrounding environment. The originality of this paper stems from the novel two-stage approach. In the first stage, natural carbonation of olivine and carbonation of olivine treated soil under different CO2 pressures and times were investigated. In this stage, the unconfined compression test was used as a tool to evaluate the strength performance. In the second stage, details of the installation and performance of carbonated olivine columns using a laboratory-scale model were investigated. In this respect, olivine was mixed with the natural soil using the auger and the columns were then carbonated with gaseous CO2. The unconfined compressive strengths of soil in the first stage increased by up to 120% compared to those of the natural untreated soil. The strength development was found to be proportional to the CO2 pressure and carbonation period. Microstructural analyses indicated the presence of magnesite on the surface of carbonated olivine-treated soil, demonstrating that modified physical properties provided a stronger and stiffer matrix. The performance of the carbonated olivine-soil columns, in terms of ultimate bearing capacity, showed that the carbonation procedure occurred rapidly and yielded a bearing capacity value of 120 kPa. Results of this study are of significance to the construction industry as the feasibility of carbonated olivine for strengthening and stabilizing soil is validated. Its applicability lies in a range of different geotechnical applications whilst also mitigates the global warming through the sequestration of CO2. |
| format |
Article |
| author |
Fasihnikoutalab, Mohammad Hamed Asadi, Afshin Kim Huat, Bujang Westgate, Paul Ball, Richard J. Pourakbar, Shahram |
| spellingShingle |
Fasihnikoutalab, Mohammad Hamed Asadi, Afshin Kim Huat, Bujang Westgate, Paul Ball, Richard J. Pourakbar, Shahram Laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| author_facet |
Fasihnikoutalab, Mohammad Hamed Asadi, Afshin Kim Huat, Bujang Westgate, Paul Ball, Richard J. Pourakbar, Shahram |
| author_sort |
Fasihnikoutalab, Mohammad Hamed |
| title |
Laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| title_short |
Laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| title_full |
Laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| title_fullStr |
Laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| title_full_unstemmed |
Laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| title_sort |
laboratory-scale model of carbon dioxide deposition for soil stabilisation |
| publisher |
Elsevier |
| publishDate |
2016 |
| url |
http://psasir.upm.edu.my/id/eprint/45306/1/OLI.pdf http://psasir.upm.edu.my/id/eprint/45306/ https://www.sciencedirect.com/science/article/pii/S1674775515001365 |
| _version_ |
1698698919220871168 |
| score |
13.160551 |