TY - GEN
T1 - Development of microbial geotechnology in Singapore
AU - Chu, J.
AU - Ivanov, V.
AU - He, J.
AU - Naeimi, M.
AU - Li, B.
AU - Stabnikov, V.
PY - 2011
Y1 - 2011
N2 - Both nature processes and laboratory studies have shown that microorganisms can be used to improve the engineering properties of soil. As such, it is possible to develop methods that utilize the microbial process to treat soil in a way similar to that of cement. When more knowledge is accumulated through research findings and technology development, a new branch of geotechnical engineering - the Microbial Geotechnology can be established. The Microbial Geotechnology can have the following three applications: (a) biocementation to increase the strength of soil, (b) bioclogging to reduce the permeability of soil, and (c) biogas to increase the liquefaction resistance of sandy soil. Some types of microorganisms or bioprocesses that may contribute to the biocementation, bioclogging or biogas effects are identified and discussed. Some experimental data are presented to show that the permeability of sand can be reduced by four orders of magnitude and the strength of sand can be increased to a substantial value after the soil has been treated using bacteria. However, the whole study still stays at the laboratory stage and much more efforts are required to turn this scientific idea into viable technologies.
AB - Both nature processes and laboratory studies have shown that microorganisms can be used to improve the engineering properties of soil. As such, it is possible to develop methods that utilize the microbial process to treat soil in a way similar to that of cement. When more knowledge is accumulated through research findings and technology development, a new branch of geotechnical engineering - the Microbial Geotechnology can be established. The Microbial Geotechnology can have the following three applications: (a) biocementation to increase the strength of soil, (b) bioclogging to reduce the permeability of soil, and (c) biogas to increase the liquefaction resistance of sandy soil. Some types of microorganisms or bioprocesses that may contribute to the biocementation, bioclogging or biogas effects are identified and discussed. Some experimental data are presented to show that the permeability of sand can be reduced by four orders of magnitude and the strength of sand can be increased to a substantial value after the soil has been treated using bacteria. However, the whole study still stays at the laboratory stage and much more efforts are required to turn this scientific idea into viable technologies.
KW - Chemical grouting
KW - Microbes
KW - Singapore
KW - Soil properties
UR - http://www.scopus.com/inward/record.url?scp=79956369529&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=79956369529&partnerID=8YFLogxK
U2 - 10.1061/41165(397)416
DO - 10.1061/41165(397)416
M3 - Conference contribution
AN - SCOPUS:79956369529
SN - 9780784411650
T3 - Geotechnical Special Publication
SP - 4070
EP - 4078
BT - Geo-Frontiers 2011
T2 - Geo-Frontiers 2011: Advances in Geotechnical Engineering
Y2 - 13 March 2011 through 16 March 2011
ER -