Author:
Moqsud M. Azizul,Gochi Takuya
Abstract
AbstractIn this study, biocementation of slope soil was performed using low-cost, commercially available materials to create a nutrient solution with native Cytobacillus hornekea. The high cost of laboratory-grade materials and microbes for biocementation is one of the main obstacles to its popularity. However, the cost of biocementation has been reduced significantly without reducing the strength when low-cost materials were used instead of laboratory-grade materials in this study. Direct shear test results and SEM also proved the suitability of the low-cost biocementation. Artificial rainfall with an intensity of 50–60 mm/h resulted in soil erosion of around 10% and 2% without and with biocementation, respectively. The amount of produced calcium carbonate was around 3.9% while using the low-cost materials with native microbes which is quite comparable with the laboratory-grade materials (3.4%).
Publisher
Springer Science and Business Media LLC
Reference52 articles.
1. Pan, X., Chu, J. & Chen, L. Reduction of rainfall infiltration in soil slope using a controllable biocementation method. Biogeotechnics 1, 100023 (2023).
2. Liu, H., Chu, J. & Kavazanjian, E. Biogeotechnics: A new frontier in geotechnical engineering for sustainability. Biogeotechnics 1, 100001 (2023).
3. Gowthaman, S., Koizumi, H., Nakashima, K. & Kawasaki, S. Field experimentation of bio-cementation using low-cost cementation media for the preservation of slope surface. Case Stud. Constr. Mater. 18, e02086 (2023).
4. Amarakoon, G. G. N. N. & Kawasaki, S. Factors affecting sand solidification using MICP with Pararhodobacter sp.. Mater. Trans. 59, 72–81 (2018).
5. Bao, R., Li, J., Li, L., Cutright, T. J. & Chen, L. Effect of microbialinduced calcite precipitation on surface erosion and scour of granular soils proof of concept. J. Transp. Res. Board 2657, 10–18 (2017).