Microbially Induced Calcite Precipitation via Microbial Organic Acid Oxidation
Publication: Geo-Congress 2024
ABSTRACT
Microbially induced calcite precipitation (MICP) or biocementation is a bio-mediated process that can be used to improve the engineering properties of granular soils through calcium carbonate precipitation. Although most commonly this process is accomplished using microbial urea hydrolysis, other microbial metabolic pathways can be used to enable biocementation with the potential to eliminate ammonium byproducts. Microbial organic acid oxidation presents one alternative pathway by which increases in solution carbonate species can be generated to enable calcium carbonate mineral formation. While past studies have considered the potential of this microbial pathway to enable biocementation for surficial applications, to date few studies have examined the feasibility of this pathway for subsurface applications wherein dissolved oxygen is more limited. In this study, 18 small-scale batch experiments were performed to investigate the ability of microbial organic acid oxidation to enable biocementation soil improvement. Experiments investigated the feasibility of using both acetate and citrate oxidation to mediate biocementation as well as the effect of differences in techniques used to supply dissolved oxygen, the effect of supplied growth factors, bicarbonate salt additions, and solution sampling frequency. Results suggest that aerobic oxidation of acetate and citrate can be used to enable calcium carbonate biocementation, though ensuring dissolved oxygen availability appears to be critical towards enabling this process.
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Information & Authors
Information
Published In
Geo-Congress 2024
Pages: 287 - 297
History
Published online: Feb 22, 2024
ASCE Technical Topics:
- [Inorganic compounds]
- Acids
- Calcium carbonate
- Cement
- Chemical compounds
- Chemical processes
- Chemicals
- Chemistry
- Climates
- Concrete
- Dissolved oxygen
- Engineering fundamentals
- Engineering materials (by type)
- Environmental engineering
- Feasibility studies
- Materials engineering
- Meteorology
- Methodology (by type)
- Microbes
- Organic compounds
- Organisms
- Oxidation
- Precipitation
- Research methods (by type)
- Water quality
- Water treatment
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