Abstract
A comparative study of soil-water characteristic curves (SWCCs) for compacted lateritic soil ̶ Bacillus coagulans (B. coagulans) mixtures for municipal solid waste (MSW) application was studied. Soil treatment was performed at approximately about one-third pore volume of the microbes (i.e., B. coagulans) for suspension densities of 0, 1.5×108, 6.0×108, 1.2×109, 1.8×109 and 2.4×109cells/ml, correspondingly. Soil specimens were prepared at optimum moisture content (OMC) of British Standard light (BSL) compaction energy. Cementation reagent was applied on the compacted soil and permitted to penetrate until partial saturation was achieved. A set-up of pressure plate extractor was employed to measure the volumetric water content, θ (VWC) in the laboratory for varying matric suctions with a minimum of 10 kPa up to a maximum of 1,500 kPa. The unsaturated hydraulic conductivity (UHC) and VWC were assessed using Brooks - Corey (BC) and Fredlund - Xing (FX) models. Largely, BC and FX models overrated the VWC. Also, the VWC decreased with higher matric suction for the two models considered and the laboratory measured values. The UHC predicted for matric suctions of 500 and 1,500 kPa initially decreased for B. coagulans suspension density up to 1.2×109 cells/ml for BC and FX models, with the exception of a few cases, but thereafter increased with increase in microbial density. For FX model at 1,500 kPa, UHC values of 2.42×10–9, 2.02×10–9, 9.31×10–10, 8.09×10–10 , 1.29×10–9 and 2.27×10–9m/s were recorded at 0, 1.5×108, 6.0×108, 1.2×109, 1.8×109 and 2.4×109cells/ml, respectively. In the case of BC model, values of 2.26×10–17, 1.41×10–14, 2.2×10–14, 4.6×10–19 , 3.25×10–17 and 2.45×10–14m/s were recorded at 0, 1.5×108, 6.0×108, 1.2×109, 1.8×109 and 2.4×109cells/ml, respectively. Thus, the FX model met the design maximum hydraulic conductivity value of 1 x 10–9 m/s requirement for MSW system when lateritic soil was treated with B. coagulans suspension density of 1.2×109 cells/ml, while the BC model satisfied the requirement for all the microbial densities considered and it is recommended for modelling of UHC of lateritic soil admixed with B. coagulans for MSW containment application.
Highlights
The study of soil-water behaviour prior to unsaturated studies is vital especially for wastecontainment purposes
Specimens were prepared with moulding water content (MWC) of -2, 0, and +2 % relative to optimum moisture content (OMC) and compacted with British Standard light (BSL) energy
The Fredlund - Xing (FX) model satisfied the design maximum hydraulic conductivity value of 1 x 10-9 m/s for waste containment system for B. coagulans suspension density of 1.2×109 cells/ml treatment of lateritic soil, while Brooks - Corey (BC) model which met the requirement at all the microbial suspension densities considered is recommended for use in modelling the unsaturated hydraulic conductivity (UHC) of the modified soil
Summary
The study of soil-water behaviour prior to unsaturated studies is vital especially for wastecontainment purposes. Compacted soil used for liners and covers in waste containment facilities are frequently unsaturated in the field. It is needful to examine the unsaturated flow that represent the actual field condition. Chiu and Shackelford [1] as well as Wang and Benson[2] reported that modelling of flow and transportation mechanism requires an adequate understanding of their unsaturated hydraulic properties. Khire et al, [3] reported that earthen landfill covers are generally unsaturated in the field and require unsaturated studies. Unsaturated hydraulic conductivity (UHC) is obtained by using soilwater characteristics curve (SWCC), which correlates matric suction (
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