Compressibility, Structure, and Leaching Assessments of an Alluvium Stabilized with a Biochar–Slag Binder

Sargent, Paul; Gonzalez, Julieta; Ennis, Christopher J.

doi:10.1061/jggefk.gteng-11102

J. Geotech. Geoenviron. Eng.

2023

DOI: 10.1061/jggefk.gteng-11102

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Compressibility, Structure, and Leaching Assessments of an Alluvium Stabilized with a Biochar–Slag Binder

Paul Sargent,

Julieta Gonzalez,

Christopher J. Ennis

Abstract: Deep dry soil mixing is a ground improvement technique commonly used for treating soft soils. Portland cement is the most commonly used binder, but its long-term use is unsustainable due to the high CO2 emissions associated with its manufacture. Alkali-activated cements are a low carbon alternative, involving the use of pozzolanic industrial by-products and wastes. This study provides insights into the one-dimensional compressibility, internal cemented 'structure' and leaching characteristics of an alluvial so… Show more

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2024

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Cited by 2 publications

References 53 publications

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Developments in biochar incorporated geopolymers and alkali activated materials: A systematic literature review

Marathe,

Sadowski

2024

Journal of Cleaner Production

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Developments in biochar incorporated geopolymers and alkali activated materials: A systematic literature review

Marathe,

Sadowski

2024

Journal of Cleaner Production

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Coal-derived char for durability improvement of cement stabilized soil under freeze–thaw, wet–dry, and sulfate attack

Yu,

Joshi,

Lau

et al. 2024

Can. Geotech. J.

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Cement soil stabilization is widely used in civil engineering to improve the performance of soils subjected to freeze-thaw (F-T), wet-dry (W-D), and sulfate attack (SA). Due to the negative impacts associated with manufacturing cement, the development of eco-friendly and sustainable additives is highly desirable. Coal-derived char is cost-effective and byproduct of coal pyrolysis process. In this study, the influence of coal char on mineralogical, microstructural, physical, and mechanical properties of cement stabilized soils (with cement contents of 0-20% and char contents of 0-30%) subjected to F-T cycles, W-D cycles, and SA is investigated. Compared to cement stabilized soils, char-cement stabilized soils exhibit up to 60.8% fewer volume changes during F-T cycles and 31.6% fewer during W-D cycles. The compressive strength of char-cement stabilized soils with cement contents of 5%, 10%, and 20% are on average 7.9%, 17.6%, and 11.0%, respectively higher than that of cement stabilized soil subjected to F-T cycles, W-D cycles, or SA. The inclusion of char promotes cement hydration and results in the formation of more amorphous hydration products that fill voids or cover soil minerals. The findings indicate the promising potential of coal char in enhancing the soil performance under a range of challenging environmental conditions.

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Compressibility, Structure, and Leaching Assessments of an Alluvium Stabilized with a Biochar–Slag Binder

Cited by 2 publications

References 53 publications

Developments in biochar incorporated geopolymers and alkali activated materials: A systematic literature review

Developments in biochar incorporated geopolymers and alkali activated materials: A systematic literature review

Coal-derived char for durability improvement of cement stabilized soil under freeze–thaw, wet–dry, and sulfate attack

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