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Hot Air Injection/Extraction Method for the Removal of Semi-Volatile Organic Contaminants from Soils  

Gu Chung-Wan (Department of Civil Engineering, Kyunghee University, Environmental Research Center)
Ko Seok-Oh (Department of Civil Engineering, Kyunghee University, Environmental Research Center)
Publication Information
Journal of Soil and Groundwater Environment / v.10, no.1, 2005 , pp. 6-12 More about this Journal
Abstract
Contamination of soils and groundwater by leakage of petroleum compounds from underground storage tanks (USTs) has become great environmental issues. Conventional methods such as soil vapor extraction (SVE) used for the remediation of unsaturated soils contaminated with volatile organic compounds might not be applied for the removal of semi-volatile organic compounds such as diesel fuels and PCBs, which have low volatility and high hydrophobicity. The objective of this study is to develop a hot air injection method to remove semi-volatile compounds. Additionally, operation parameters such as temperature, air flow rate, and water content are evaluated. Experimental results show that diesel ranged organics (DROs) are removed in the order of volatility of organic compounds. As expected, removal efficiency of organics is highly dependent on the temperature. It is considered that more than $90\%$ of organic contaminants whose carbon numbers range between 17 and 22 can be removed efficiently by the hot air injection-extraction method (modified SVE) over the $100^{\circ}C$. It is also found that increased air flow rate resulted in high removal rate of contaminants. However, air flow rate over 40 cc/min is not effective for the operation aspects, due to mass transfer limitation on the volatilization rate of the contaminants. The effect of the water content on the decane removal is minimal, but some components show large dependence on the removal efficiency with increasing water content.
Keywords
Soil Vapor Extraction (SVE); Hot air; Diesel Range Organics (DROs); Vapor pressure; Mass transfer limitation;
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