OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

科学通报 2012

微生物水泥基材料特征

, PP. 770-775

荣辉,钱春香

Keywords: 微生物水泥,胶结机理,微观结构,方解石

Full-Text Cite this paper Add to My Lib

Abstract:

在节能减排大环境下,研发了新一代水泥——微生物水泥.微生物水泥是利用微生物诱导形成的方解石作为胶结物质以连接松散颗粒成为整体并获得一定的力学性能.证实了微生物水泥胶结松散颗粒的可行性,并详细阐述了其胶结机理.同时成功制备出微生物水泥砂柱,并利用扫描电子显微镜(SEM)和压汞仪(MIP)分析了微生物水泥砂柱微观形貌和孔结构.结果表明(1)在20天龄期下,利用微生物水泥胶结成的砂柱抗压强度可达12MPa;(2)微生物水泥砂柱内部微观结构与微生物诱导形成的方解石数量有关.

References

[1]	Le Metayer-Levrel G, Castanier S, Orial G, et al. Applications of bacterial carbonatogenesis to the protection and regeneration of limestones in buildings and historic patrimony. Sediment Geol, 1999, 126: 25-34
[2]	Nemati M, Voordouw G. Modification of porous media permeability, using calcium carbonate produced enzymatically in situ. Enzyme Microb Technol, 2003, 33: 635-642
[3]	DeJong J T, Fritzges M B, Nusslein K. Microbially induced cementation to control sand response to undrained shear. J Geotech Geoenviron Eng, 2006, 132: 1381-1392
[4]	DeJong J T, Brina M M, Brian C M, et al. Bio-mediated soil improvement. Ecol Eng, 2010, 36: 197-210
[5]	Whiffin V S. Microbial CaCO3 precipitation for the production of Biocement. Dissertatin for the Doctoral Degree. Western Australia: Murdoch University.[J]..2004,:-
[6]	Whiffin V S, Van Paassen L A, Harkes M P. Microbial carbonate precipitation as a soil improvement technique. Geomicrobiol J, 2007, 24:417-423
[7]	Ivanov V, Chu J. Applications of microorganisms to geotechnical engineering for bioclogging and biocementation of soil in situ. Rev Environ Sci Biotechnol, 2008, 7: 139-153
[8]	De Muynck W, De Belie N, Verstraete W. Microbial carbonate precipitation in construction materials: A review. Ecol Eng, 2010, 36:118-136
[9]	De Muynck W, Verbeken K, De Belie N, et al. Influence of urea and calcium dosage on the effectiveness of bacterially induced carbonate precipitation on limestone. Ecol Eng, 2010, 36: 99-111
[10]	De Muynck W, Debrouwer D, De Belie N, et al. Bacterial carbonate precipitation improves the durability of cementitious materials. Cem Concr Res, 2008, 38: 1005-1014
[11]	Qian C X, Wang J Y, Wang R X, et al. Corrosion protection of cement-based building materials by surface deposition of CaCO3 by Bacillus pasteurii. Mater Sci Eng C, 2009, 29: 1273-1280
[12]	Simon M A, Bonner J S, Page C A, et al. Evaluation of two commercial bioaugmentation products for enhanced removal of petroleum from a wetland. Ecol Eng, 2004, 22: 263-277
[13]	Bachmeier K L, Williams A E, Warmington J R, et al. Urease activity in microbiologically-induced calcite precipitation. J Biotechnol,2002, 93: 171-181
[14]	Ferris F G, Stechmeier L G, Kantzas A, et al. Bacteriogenic mineral plugging. J Can Pet Technol, 1996, 35: 56-61
[15]	Ramachandran S K, Ramakrishnan V, Bang S S. Remediation of concrete using micro-organisms. ACI Mater J, 2001, 1: 3-9
[16]	Ferris F G, Setehmeir L G. Bacteriogenic mineral plugging. United States Patent, 664769, 1992
[17]	Nemati M, Greene E A, Voordouw G. Permeability profile modification using bacterially formed calcium carbonate: comparison with enzymic option. Process Biochem, 2005, 40: 925-933
[18]	Ferris F G, Phoenix V, Fujita Y, et al. Kinetics of calcite precipitation induced by ureolytic bacteria at 10℃ to 20℃ in artificial groundwater. Geochem Cosmochim Acta, 2003, 67: 1701-1722
[19]	Fujita Y, Ferris F G, Lawson R D, et al. Calcium carbonate precipitation by ureolytic subsurface bacteria. Geomicrobiol J, 2000, 17:305-318
[20]	Warren L A, Maurice P A, Parmar N, et al. Microbially mediated calcium carbonate precipitation: Implications for interpreting calcite pecipitation and for solid-phase capture of inorganic contaminants. Geomicrobiol J, 2001, 18: 93-115
[21]	Chaturvedi S, Chandra R, Rai V. Isolation and characterization of Phragmites australis (L) rhizosphere bacteria from contaminated site for bioremediation of colored distillery effluent. Ecol Eng, 2006, 27: 202-207
[22]	Ramakrishnan V, Ramesh K P, Bang S S. Bacterial concrete. In: Proc of SPIE-Int Society of Optical Engineering, 2001, 4234: 168-176
[23]	Morse J W. The kinetics of calcium carbonate dissolution and precipitation. In: Reeder R J, ed. Carbonates: Mineralogy and chemistry, vol. 11. Mineralogic Society of America, Washington DC, 1983. 227-264
[24]	Kantzas A, Stehmeier L, Marentette D F, et al. A novel method of sand consolidation through bacteriogenic mineral plugging. In: Jha K N, Maurits F M, eds. Proceedings of Annual Technical Meeting, 1992 Jun 7-10, Calgary. Canada: Society of Petroleum Enginners, 1992. 46
[25]	Qian C X, Pan Q F, Wang R X. Cementation of sand grains based on carbonate precipitation induced by microorganism. Sci China Tech Sci, 2010, 53: 2198-2206

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133