Strength improvement in lateritic soil through MICP technique Department:Civil Engineering By: harnubhoi Project ID: 7044 Rating: (5.0) votes: 1 Price:₦3000 Get the Complete MaterialAbstractMicrobial Induced Calcite Precipitation (MICP) is one of the newest techniques used in soil stabilization, which involves the use of eco-friendly microorganisms to improve the engineering properties of soil. This research focused on the treatment of lateritic soil with microbial–induced calcite precipitate (MICP). Thirty-two Bacillus strains were screened for urease, an enzyme which initiates calcite precipitation and six strains were observed to produce urease enzyme reasonably. Bacillus strain (CE9) had the highest urease enzyme production at pH 7. The unconfined compressive strength (UCS) shows that the lateritic soil specimens treated with urease producing strains (UPS) had more strength compared with the untreated lateritic soil sample (control). The best two Bacillus strains UC10 and UC11, Bacillus mycodies_MTO47265 and Bacillus sp respectively with the highest UCS were further tested, singly and combined were compared but UC11 was preferred. The soil specimens were prepared in polyvinyl cylindrical molds of diameter 50 mm and 150 mm in height. 52 soil specimens were prepared, in which 4 control specimens were untreated and not cured. 48 of the treated specimens were also cured at varying ages by covering them with Polythene bags. This was done to evaluate the effect of age and curing on strength development in bio-cemented lateritic soil. The dominant minerals present in the lateritic soil used are Quartz (45%), Orthoclase (18%), Muscovite (17%), Kaolinite (18.4%) and Chlorite (1.2%). Bacillus mycodies_MTO47265 was found to improve the performance of the tested soil specimens when compared with other strain and the consortium used. Increase in elemental concentration of calcium and carbon, after treatment with Bacillus mycodies_MTO47265, was found to be 0.32 and 1.02 respectively. The specimen treated with Bacillus mycoides_MTO47265 shows a fully clustered crystal morphology of calcite cementing the soil matrix when compared with that of an untreated specimen. ...Preview Download Preview +Other Civil Engineering project topics and materials you might be interested in»Comparing the compressive strength of concrete made with sand as fine aggregate and with chipping dust as fine aggregate»The comparative study of the compressive strength of concrete made with granite to that made with river round stone (pebble) and local stone»The use of computer in civil engineering»Importance of timber in civil engineering construction»Construction and Installation of a Panel Door»Construction of wardrobe key study on wood work»Effect of street trading on traffic performance and control»Assessment of different types of foundation and their mode of construction»Comparison of soil bearing capacity of different locations in Imo state»Investigation into the suitability of sand and gravel materials commonly used in building construction»Investigating the effect of partial replacement of cement with eggshell powder in concrete production»An investigation in to the causes of cracks in building and possible solutions - a case study of Kukar Gesa community in Katsina metropolis»Determination of the causes, effects of environmental pollution and its possible control within Kwara and Osun state»Suitability of available laterite material in Ilorin East local government area for road construction»Model for prediction of rainfall intensity in Lagos