Abstract:
Microbially induced carbonate precipitation (MICP) is relatively a new environmentally friendly soil
improvement method. In MICP process, the formation of calcium carbonate occurs within the soil matrix as the
consequence of biochemical process mediated by ureolytic bacteria. The objective of this preliminary work is to
evaluate the effects of adding polymers on MICP process. Basically, the polymers are organic macromolecules
and have potential to offer several benefits such as increasing solution viscosity, extending supply time,
localization of cementation reactions, reduction of harmful byproduct ammonium and enhancement of strength.
For the above-mentioned objective, two different types of polymers are studied: (i) Polyvinyl alcohol (PVA) and
(ii) Polyacrylic acid (PAA). Lysinibacillus xylanilyticus are cultivated in the standard medium with varying
contents of polymers. The growth and urease activity of the bacteria are determined with the incubation time. In
addition, set of test tube tests is performed to assess the precipitation characteristics of calcium carbonate at the
presence of polymers. The outcomes indicated that the polymers do not have any adverse effects on the growth
of bacteria. However, the PAA is found significantly enhance the urease activity compared with typical bacteria
culture medium, whereas it is not evidenced in PVA. Moreover, compared to the typical MICP process, the
addition of polymers produce more spherical-shaped calcium carbonate crystals, which highly differ from typical
rhombohedral-shaped crystals. With the above findings, future works are recommended on soil to investigate the
cementation efficiency and adsorption of ammonium by-products
