@article{Yohanna_stephen Ijimdiya_Juwonlo Osinubi_Oshioname Eberemu_2022, title={A Laboratory study on water transfer properties of unsaturated compacted lateritic Soil – Bacillus coagulans mixtures }, volume={6}, url={https://jetjournal.org/index.php/ajet/article/view/149}, abstractNote={<p>A study on soil water characteristic curves (SWCC) and unsaturated hydraulic conductivity (UHC) of lateritic soil–<em>Bacillus coagulans </em>mixes was done. Three well known models (i.e van Genuchten (VG), Brooks-Corey(BC) and Fredlund-Xing (FX)) were used to predict SWCC and UHC from laboratory test results. &nbsp;Soil samples for&nbsp; the test were admixed with <em>B. coagulans</em> at one-third (1/3) pore in step suspension densities of 0 to 2.4x10<sup>9</sup>cells/ml. Soil samples were then compacted differently with Reduced British Standard light (RBSL), British Standard light(BSL),West African Standard (WAS) and British Standard heavy(BSH) compactive efforts. Cementitious reagent was injected into the compacted soil using gravity up until saturation was attained. Specimens after being compacted were then cored out from the mould using stainless steel cylindrical moulds. The specimens (i.e., inside the stainless steel cylindrical moulds) were then immersed in water chamber till the samples were completely saturated via capillary action and thereafter allowed&nbsp; to undergo a pressure plate drying(PPD) test. Matric suctions of 0, 10, 30, 100, 500, 1000 and 1500kPa, respectively, were used. Result of SWCCs show that with a rise in matric suction, the volumetric water content(θ) declined progressively for all the models (i.e van Genuchten (VG), Brooks-Corey(BC) and Fredlund-Xing(FX)) and the experimental measured values. The UHC slightly reduced with rise in&nbsp; <em>B.coagulans</em> suspension density for VG, BC and FX models. At 500 and 1500kPa matric suctions (MS), BC model documented the least UHC values and satisfied the regulatory lowest hydraulic conductivity value of 1.0×10<sup>-9</sup>m/s for use in containment system. Thus, is suggested for modelling the UHC of lateritic soil ̶ <em>B.coagulans </em>mixtures.</p&gt;}, journal={Algerian Journal of Engineering and Technology}, author={Yohanna, Paul and stephen Ijimdiya, Thomas and Juwonlo Osinubi, kolawole and Oshioname Eberemu, Adrian}, year={2022}, month={Jun.}, pages={19-28} }