Risk assessment of gas oil and kerosene contamination on some properties of silty clay soil
Autor: | M. Fallah, Soheila Ebrahimi, M. Shabanpor, M Zakerinia |
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Rok vydání: | 2015 |
Předmět: |
Water retention curve
Soil science Management Monitoring Policy and Law Risk Assessment Kerosene Soil Hydraulic conductivity Soil pH Soil Pollutants Petroleum Pollution Water content General Environmental Science Moisture Electric Conductivity Environmental engineering Water Soil chemistry General Medicine Hydrogen-Ion Concentration Pollution Soil contamination Soil water Clay Environmental science Aluminum Silicates Porosity Fuel Oils |
Zdroj: | Environmental Monitoring and Assessment. 187 |
ISSN: | 1573-2959 0167-6369 |
Popis: | Soil and ground water resource pollution by petroleum compounds and chemical solvents has multiple negative environmental impacts. The aim of this research was to investigate the impacts of kerosene and gas oil pollutants on some physical and chemical properties, breakthrough curve (BTC), and water retention curve (SWRC) of silty clay soil during a 3-month period. Therefore, some water-saturated soils were artificially contaminated in the pulse condition inside some glassy cylinders by applying half and one pore volume of these pollutants, and then parametric investigations of the SWRC were performed using RETC software for Van Genukhten and Brooks-Corey equations in the various suctions and the soil properties were determined before and after pollution during 3 months. The results showed that gas oil and kerosene had a slight effect on soil pH and caused the cumulative enhancement in the soil respiration, increase in the bulk density and organic matter, and reduction in the soil porosity and electrical and saturated hydraulic conductivity. Furthermore, gas oil retention was significantly more than kerosene (almost 40 %) in the soil. The survey of SWRC indicated that the contaminated soil samples had a little higher amount of moisture retention (just under 15 % in most cases) compared to the unpolluted ones during this 3-month period. The parametric analysis of SWRC demonstrated an increase in the saturated water content, Θ s, from nearly 49 % in the control sample to just under 53 % in the polluted ones. Contaminants not only decreased the residual water content, Θ r, but also reduced the SWRC gradient, n, and amount of α parameter. The evaluation of both equations revealed more accurate prediction of SWRC’s parameters by Van Genukhten compared to those of Brooks and Corey. |
Databáze: | OpenAIRE |
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