Experimental Work on the Behaviour of Synthetic Soils Contaminated with Light Hydrocarbon, and Subsequent Remediation Thereof

Aikman, M.; Kantzas, Apostolos; Mirotchnik, K.

doi:10.2118/02-09-01

Journal of Canadian Petroleum Technology

2002

DOI: 10.2118/02-09-01

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Experimental Work on the Behaviour of Synthetic Soils Contaminated with Light Hydrocarbon, and Subsequent Remediation Thereof

M. Aikman

Apostolos Kantzas

K. Mirotchnik³

Abstract: The contamination of soil by light hydrocarbons is one of the most frequently encountered environmental problems. Leakage from underground storage tanks at refueling stations is the most common source, but others are refineries or production facilities. Research at the University of Calgary has been examining the application of proven petroleum reservoir engineering methods to address this issue. By use of horizontal boreholes, and cyclic water and gas injection, the contaminant can be recovered in situ. … Show more

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“…Parkin et al (2000) tested a ground penetrating radar approach to assess water contents below a wastewater trench and found the approach was comparable to results using time domain reflectometry. Finally, Aikman et al (2002) suggested that horizontal boreholes can be used to optimize recovery of hydrocarbon contamination from underground storage tanks.…”

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confidence: 99%

Vadose Zone Characterization and Monitoring Beneath Waste Disposal Pits Using Horizontal Boreholes

McLin

Newman

Broxton

2005

Vadose Zone Journal

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Semiarid sites such as those at Los Alamos National Laboratory (the Laboratory) face additional challenges Vadose zone characterization and monitoring immediately below because typical vadose zone water contents are so low landfills using horizontal boreholes is an emerging technology. Howthat routine sampling below waste sites is extremely ever, this topic has received little attention in the peer-reviewed literature. The value of this approach is that activities are conducted below difficult. Early studies at hazardous and low-level waste the waste, providing clear and rapid verification of containment. Here

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mentioning

confidence: 99%

Vadose Zone Characterization and Monitoring Beneath Waste Disposal Pits Using Horizontal Boreholes

McLin

Newman

Broxton

2005

Vadose Zone Journal

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Bearing capacity and geotechnical properties of sandy soil substrate contaminated with oil derivatives (diesel fuel and kerosene)

Fazeli

Lotfollahi

Bakhtiari

et al. 2021

QJEGH

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This research investigated the bearing capacity and geotechnical properties of a sandy soil substrate contaminated with oil derivatives, diesel fuel, and kerosene. For this purpose, a site with a clayey sandy soil substrate was considered to evaluate the effects of contamination on the geotechnical properties and bearing capacity of the substrate in both clean and contaminated states. Then, the substrate of the site was artificially contaminated with diesel fuel and kerosene and underwent field and laboratory tests. The experiments, including the Atterberg limits, standard proctor compaction, uniaxial compressive strength, strength, and freeze-thaw durability tests, were performed on prepared samples. Also, to determine the bearing capacity of the contaminated and intact substrates, a plate load test was conducted at the site. The results indicate that contamination by oil derivatives reduces the strength and increases the settlement and displacement of the contaminated substrate, where the effects of diesel fuel are more significant than those of kerosene. The results of this research are compared to previous studies. The literature shows that most research in this area was carried out in the laboratory, and there is a lack of in-situ studies. This study showed that the presence of oil contaminations caused a 3.5% reduction in the amount of soil Atterberg limits. The contaminations also reduced the dry density and uniaxial compressive strength of the soil by 2.5% and 20%, respectively. The results presented were consistent with the results of other researchers. However, some studies have suggested an increase in the Atterberg limits due to oil contaminants in the soil.

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Experimental Work on the Behaviour of Synthetic Soils Contaminated with Light Hydrocarbon, and Subsequent Remediation Thereof

Cited by 2 publications

References 0 publications

Vadose Zone Characterization and Monitoring Beneath Waste Disposal Pits Using Horizontal Boreholes

Vadose Zone Characterization and Monitoring Beneath Waste Disposal Pits Using Horizontal Boreholes

Bearing capacity and geotechnical properties of sandy soil substrate contaminated with oil derivatives (diesel fuel and kerosene)

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