Extraction of bitumen, crude oil and its products from tar sand and contaminated sandy soil under effect of ultrasound

A regression analysis model was developed to examine the reliability and the acceptability of the sun-dried and room-dried Azadirachta indica leaves for the remediation crude oil contaminated soil in Niger Deltal, Nigeria. An experimental approach was used to monitor the concentration of the total petroleum hydrocarbon (TPH) degradation that was enhanced in the presence of the microbes in the reactor. A regression analysis was performed to evaluate the reaction behavior microbes in reactor for the remediation of the TPH in the presence of sun-dried and room-dried A. indica leaves in sandy and loamy soils contaminated with 100 ml of crude oil. The physicochemical properties of control loamy soil was as; pH (6.75), electric conductivity (10.36 μS/cm), total oxygen (2.99%), total Nitrogen (0.091%), potassium (36.82942%), phosphorus (15.36%) and total bacteria (2.15×102 cfu/g). Whereas, these values were as pH (6.82), electric conductivity (21.48 μS/cm), total oxygen content (1.18%), total nitrogen (0.036%), potassium (24.03681%), phosphorus (5.18%) and total bacteria count (1.86×102 cfu/g) for sandy soil. The inoculant was prepared by blending sun-dried and room-dried A. indica leaves. The blended A. indica leaves in 50 to 100 g range were applied on the polluted soils for 35 days and significant reduction in contaminating agents was observed. The highest remediation was observed in soils treated with 100 g room dried A. indica leaves. A 96% remediation recorded in sandy soil treated with 100 g room dried A. indica leaves as TPH depleted from 35818.69 mg/kg to 1349.109 mg/kg and 92% reduction was observed in loamy soil treated with 100 g dried A. indica leaves and TPH depleted from 48508.92 mg/kg to 3977.739 mg/kg. The regression model developed was successfully employed to predict TPH remediation behavior, which can be applied to monitor remediation of contaminated soil.

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Bearing capacity of isolated square footing resting on contaminated sandy soil with crude oil

Egyptian Journal of Petroleum ◽

10.1016/j.ejpe.2019.06.005 ◽

2019 ◽

Vol 28 (3) ◽

pp. 281-288

Author(s):

Ahmed Ibrahim Fadhil Al-Adly ◽

Amjad Ibrahim Fadhil ◽

Mohammed Yousif Fattah

Keyword(s):

Crude Oil ◽

Bearing Capacity ◽

Sandy Soil ◽

Square Footing

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Strength and Leaching Characteristics of Crude Oil Contaminated Sandy Soil Stabilized with Sawdust Ash-Cement

Geo-Chicago 2016 ◽

10.1061/9780784480168.057 ◽

2016 ◽

Cited By ~ 1

Author(s):

Oluwapelumi O. Ojuri ◽

Godwin G. Epe

Keyword(s):

Crude Oil ◽

Sandy Soil ◽

Leaching Characteristics

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Effect of Bentonite Addition on Geotechnical Properties of Oil-Contaminated Sandy Soil

Journal of Civil Engineering and Construction ◽

10.32732/jcec.2018.7.4.153 ◽

2018 ◽

Vol 7 (4) ◽

pp. 153 ◽

Cited By ~ 2

Author(s):

Amirhossein Mohammadi ◽

Taghi Ebadi ◽

Mehrdad Ahmadi

Keyword(s):

Crude Oil ◽

Sandy Soil ◽

Oil Content ◽

Friction Angle ◽

Biological Properties ◽

Geotechnical Properties ◽

Dry Density ◽

Maximum Dry Density ◽

Coefficient Of Consolidation ◽

Direct Shear Tests

Oil and its derivatives not only change the chemical and biological properties of the soils, but also affect their geotechnical properties. Effects of oil contamination on a sandy soil which mixed with bentonite was assessed in terms of compaction, shear strength, and consolidation behavior. The experiments were carried out by polluting dry sandy soil with 2.5, 5, 7.5, 10% w/w crude oil at different bentonite contents (0, 5, 10, 15, 20% w/w). Results of compaction tests indicated that at a fixed bentonite content, with increasing crude oil content, the maximum dry density increases, while the optimum water content decreases. Similarly, at a fixed contaminant content, increasing the bentonite content in the soil leads to increase in soil maximum dry density and the optimum moisture content. Moreover, direct shear tests revealed that at a specific bentonite content, higher contamination concentration causes lower internal friction angle. The effect of oil content on the coefficient of consolidation (Cv) and void ratio of soils with 0, 5, 10, 15, and 20 percent bentonite contents was studied. The results of consolidation tests indicated that at a fixed bentonite content Cv has an overall increasing pattern which is in its maximum amount at 5% oil content.

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Effects of Fly Ash and Granulated Ground Blast Furnace Slag on Stabilization of Crude Oil Contamination Sandy Soil

Polytechnic Journal ◽

10.25156/ptj.v9n2y2019.pp80-85 ◽

2019 ◽

Vol 9 (2) ◽

pp. 80-85

Author(s):

Farman K. Ghaffoori ◽

Mohamed M. Arbili

Keyword(s):

Shear Strength ◽

Fly Ash ◽

Crude Oil ◽

Sandy Soil ◽

Dry Weight ◽

Strength Properties ◽

Industrial Wastes ◽

Environment Friendly ◽

Compaction Properties ◽

Furnace Slag

This paper deals with on stabilization of crude oil-contaminated soil. Industrial waste materials such as GGBFS and fly ash (FA) are used to achieve acceptable results for compaction and strength properties. GGBFS and FA utilized in two groups of soil (clean soil and 6% contaminated with crude oil) with varying proportions of GGBFS and FA by weight of soil. The primary goals of this study explain to establish a conclusion that GGBFS and FA are the best byproduct stabilizer material for increasing the strength and stability of soil by investigating samples of soil. In this study, the effect of GGBFS and FA on compaction properties (OMC and MDD) and direct shear strength (cohesion and angle of friction) observed. Different percentages of GGBFS (0%, 10%, and 15%) and FA (0%, 10%, and 15%) by dry weight were utilized in mixtures of sandy soil samples for different experiments. Ultimately, bases on the experimental results, it is summarized that the use of industrial wastes, i.e. GGBFS and Flyash, are affected in shear strength and compaction properties. Although, they have environment-friendly behavior for the construction project purpose.

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