Complex behavior of petroleum hydrocarbons in vadose zone: A holistic analysis using unsaturated soil columns

Authors
An, SeongnamWoo, HeesooKim, Sang HyunYun, Seong-TaekChung, JaeshikLee, Seunghak
Issue Date
2023-06
Publisher
Pergamon Press Ltd.
Citation
Chemosphere, v.326
Abstract
The migration of petroleum hydrocarbons in vadose zone involves complex coupled processes such as downward displacement and natural attenuation. Despite its significance in determining groundwater vulnerability to petroleum contamination and optimizing the remedial strategy, it has not been comprehensively studied in terms of overall processes under field-relevant conditions. In this study, a series of unsaturated soil column experiments were conducted by simulating subsurface diesel contamination within a vadose zone using different soil textures at different soil bulk densities and initial diesel concentrations, while partly exposing them to simulated precipitation. The results showed that the soil column with less fine fraction was favorable for the downward migration of diesel but unfavorable for its natural degradation. However, precipitation complicated the relative conductivities of multiple fluids (water, air, and diesel) through the pore network, therby decreasing diesel migration and degradation. For example, the downward migration of diesel in the SL column decreased by 8.4% under precipitation, while the overall attenuation rate dropped to almost 0.24% of its original state. Lowering bulk density (from 1.5 to 1.23 g/cm3), however, could enhance the attenuation rate presumably due to the secured void space for the incoming fluids. A high initial concentration of diesel (2%; w/w) inhibited its natural attenuation, while its influence on its vertical propagation after the precipitation was not significant. The present findings provide a mechanistic basis for approximating the behavior of petroleum hydrocarbons in a random vadose zone.
ISSN
0045-6535
URI
https://pubs.kist.re.kr/handle/201004/79898
DOI
10.1016/j.chemosphere.2023.138417
Appears in Collections:
KIST Article > 2023
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