Diffusion study of municipal solid waste contaminants in compacted lateritic soil treated with bacillus coagulans

Solid state fermentation (SsF) is recognized as a suitable process for the production of enzymes using organic residues as substrates. However, only a few studies have integrated an evaluation of the feasibility of applying enzymes produced by SsF into subsequent hydrolyses followed by the production of target compounds, e.g., lactic acid (LA), through submerged-liquid fermentations (SmF). In this study, wheat bran (WB) was used as the substrate for the production of enzymes via SsF by Aspergillus awamori DSM No. 63272. Following optimization, cellulase and glucoamylase activities were 73.63 ± 5.47 FPU/gds and 107.10 ± 2.63 U/gdb after 7 days and 5 days of fermentation, respectively. Enzymes were then used for the hydrolysis of the organic fraction of municipal solid waste (OFMSW). During hydrolysis, glucose increased considerably with a final value of 19.77 ± 1.56 g/L. Subsequently, hydrolysates were fermented in SmF by Bacillus coagulans A166 increasing the LA concentration by 15.59 g/L. The data reported in this study provides an example of how SsF and SmF technologies can be combined for the valorization of WB and OFMSW.

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Compatibility of compacted lateritic soil treated with bagasse ash and Municipal Solid Waste leachate

International Journal of Environment and Waste Management ◽

10.1504/ijewm.2012.049841 ◽

2012 ◽

Vol 10 (4) ◽

pp. 365 ◽

Cited By ~ 4

Author(s):

Kolawole J. Osinubi ◽

Adrian O. Eberemu ◽

Agapitus A. Amadi

Keyword(s):

Municipal Solid Waste ◽

Solid Waste ◽

Lateritic Soil ◽

Waste Leachate

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Compaction Characteristics of Lateritic Soil-Stabilized Municipal Solid Waste Bottom Sediment

International Journal of Environmental Science and Development ◽

10.7763/ijesd.2013.v4.359 ◽

2013 ◽

pp. 304-306

Author(s):

A. Y. Abdulfatah ◽

S. G. Kiru ◽

T. A. Adedokun

Keyword(s):

Municipal Solid Waste ◽

Bottom Sediment ◽

Solid Waste ◽

Lateritic Soil ◽

Compaction Characteristics

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Unsaturated hydraulic conductivity of compacted bio-cemented lateritic soil in municipal solid waste containment application

MATEC Web of Conferences ◽

10.1051/matecconf/202133704001 ◽

2021 ◽

Vol 337 ◽

pp. 04001

Author(s):

Kolawole Juwonlo Osinubi ◽

Emmanuel Gadzama ◽

Adrian Oshioname Eberemu ◽

Thomas Stephen Ijimdiya

Keyword(s):

Hydraulic Conductivity ◽

Municipal Solid Waste ◽

Solid Waste ◽

Prediction Models ◽

Soil Improvement ◽

Lateritic Soil ◽

Calcite Precipitation ◽

British Standard ◽

Waste Containment ◽

Unsaturated Hydraulic Conductivity

Most engineering infrastructures, including municipal solid waste containment facilities, are situated in unsaturated zone. The use of chemical additives for soil improvement has been linked to the adverse environmental issues being experienced globally. Research into more sustainable methods of soil improvement has led to the discovery of a novel and innovative method known as microbial induced calcite precipitation (MICP). Lateritic soil was treated with stepped Sporosarcina pasteurii (S. pasteurii) suspension density up to 2.40 x 109 cells/ml at moulding water content (MWC) -2, 0 and +2 % relative to optimum moisture content (OMC) before compaction using Reduced British Standard light (RBSL), British Standard light (BSL), West African Standard (WAS) or Intermediate and British Standard heavy (BSH) energies. Compacted specimens were saturated with cementation reagent in three cycles with 1/3rd pore volume at 6 hours’ interval to induce calcite precipitation at an ambient laboratory temperature of 24±2°C. The soil-water characteristics curves (SWCC) of the specimens were determined using pressure plate extractor over a pressure range of 10-1500 kPa. Unsaturated hydraulic conductivity values were predicted for the S. pasteurii suspension densities considered using Brooks-Corey, van Genuchten as well as Fredlund and Xing curve fitting prediction models. Results show that the unsaturated hydraulic conductivity values of specimens prepared at lower, MWC relative to OMC were generally higher than at higher MWC regardless of compactive efforts and S. pasteurii suspension densities considered. The Brooks-Corey model gave the best predicted unsaturated hydraulic conductivity values which fit the requirements for waste containment facilities over the matric suction range and S. pasteurii suspension densities considered, than the van Genuchten and Fredlund – Xing, when compared with measured values.

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