Details
| Translated title of the contribution | Modelling of Soil Improvement via MICP |
|---|---|
| Original language | German |
| Pages | 10-17 |
| Number of pages | 8 |
| Volume | 98 |
| Issue number | 1-2 |
| Journal | Bauingenieur |
| Publication status | Published - Jan 2023 |
Abstract
In the current scientific literature, microbially induced calcite precipitation (MICP) is considered as an environmentally friendly alternative to reduce the permeability and improve the mechanical properties of the soil. In this study a modelling framework and numerical simulation of the complicated biological, chemical, hydraulic, and mechanical (BCHM) in MICP are presented. The performance of the modelling work is estimated based on the published experimental studies. The potential of this model in the optimization of the practice-relevant processes is shown in a simulation of a field test.
ASJC Scopus subject areas
- Engineering(all)
- Civil and Structural Engineering
- Engineering(all)
- Building and Construction
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In: Bauingenieur, Vol. 98, No. 1-2, 01.2023, p. 10-17.
Research output: Contribution to specialist publication › Contribution in non-scientific journal › Transfer
}
TY - GEN
T1 - Modellierung der Verbesserung von Bodeneigenschaften mittels MICP
AU - Wang, X.
AU - Nackenhorst, U.
PY - 2023/1
Y1 - 2023/1
N2 - In the current scientific literature, microbially induced calcite precipitation (MICP) is considered as an environmentally friendly alternative to reduce the permeability and improve the mechanical properties of the soil. In this study a modelling framework and numerical simulation of the complicated biological, chemical, hydraulic, and mechanical (BCHM) in MICP are presented. The performance of the modelling work is estimated based on the published experimental studies. The potential of this model in the optimization of the practice-relevant processes is shown in a simulation of a field test.
AB - In the current scientific literature, microbially induced calcite precipitation (MICP) is considered as an environmentally friendly alternative to reduce the permeability and improve the mechanical properties of the soil. In this study a modelling framework and numerical simulation of the complicated biological, chemical, hydraulic, and mechanical (BCHM) in MICP are presented. The performance of the modelling work is estimated based on the published experimental studies. The potential of this model in the optimization of the practice-relevant processes is shown in a simulation of a field test.
UR - http://www.scopus.com/inward/record.url?scp=85147571943&partnerID=8YFLogxK
U2 - 10.37544/0005-6650-2023-01-02-38
DO - 10.37544/0005-6650-2023-01-02-38
M3 - Beitrag in Publikumszeitung/-zeitschrift
AN - SCOPUS:85147571943
VL - 98
SP - 10
EP - 17
JO - Bauingenieur
JF - Bauingenieur
SN - 0005-6650
ER -