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An Apparatus to Monitor Suction Evolution and Water Migration within a Soil Mass for Climate-Adaptive Infrastructure

Rana, Aditi; Kumar Sharma, Ashwani; Kumar, Ashutosh; Azizi, Arash; Muguda, Sravan; Osman, Ashraf; Toll, David G.

Authors

Aditi Rana

Ashwani Kumar Sharma

Ashutosh Kumar

Arash Azizi



Abstract

The present study investigates the potential utility of a capillary barrier system that limits water infiltration into the underlying soil. This was achieved by developing a cylindrical apparatus capable of monitoring matric suction and water content at different depths in real-time when subjected to hydraulic loading. The climate adaptive barrier layer (CABL) was prepared by using an amended soil containing a 5% by dry mass of waste produced from the water treatment plant. The result of monitoring without a CABL indicated the quick reduction in suction and quick increment in the volumetric water content under artificially induced rainfall. The top layer of the soil has shown the variation of suction up to 2,000 kPa under continuous air-drying (four months) where the suction was higher during the day compared to the night. Such variation was not observed under the application of the CABL, thereby limiting the changes in the water content and soil suction of the underlying soil, showing the potential applicability of the CABL to limit the impact of water content fluctuation.

Citation

Rana, A., Kumar Sharma, A., Kumar, A., Azizi, A., Muguda, S., Osman, A., & Toll, D. G. (2023, July). An Apparatus to Monitor Suction Evolution and Water Migration within a Soil Mass for Climate-Adaptive Infrastructure. Presented at Geo-Risk 2023, Arlington, Virginia

Presentation Conference Type Conference Paper (published)
Conference Name Geo-Risk 2023
Start Date Jul 23, 2023
End Date Jul 26, 2023
Acceptance Date Jun 20, 2023
Online Publication Date Jul 20, 2023
Publication Date Jul 20, 2023
Deposit Date Oct 10, 2024
Publisher American Society of Civil Engineers
Peer Reviewed Peer Reviewed
Volume 39
Pages 117-126
Book Title Geo-Risk 2023
DOI https://doi.org/10.1061/9780784484968.013
Public URL https://durham-repository.worktribe.com/output/2953334