Particle-size-based elution of petroleum hydrocarbon contaminated soil by surfactant mixture

Surfactants are often used to elute the contaminants from soils in order to remediate the polluted soils. However, the heterogeneity of minerals and organic matters with soil particle size may result in adsorption and precipi-tation of surfactants and affect the distribution of petroleum hydrocarbons (PHCs). In this work, spiked soil samples and surfactant mixture consisting of Tween 80 (TW80) and sodium dodecyl sulfate were prepared. Results showed that the silt-clay-mixture held the high retention capacity of PHCs, and 30% total petroleum hydrocarbons (TPHs) was retained in the soil fraction of ' 125 mu m' (high concentration), while 70% TPHs (low concentration) was retained in the soil fraction of ' 125 mu m'. TW80 was highly adsorbed on the montmorillonite and aluminosilicates of the soil, and the adsorption of TW80 in surfactant mixture could be relieved at mass ratio of 1:1. This study provides a novel strategy in the elution removal of PHCs from the contaminated soils, in which with the separation of soil particles by the size of 125 mu m before elution, as high as 80% PHCs could be eluted from the soil by surfactant mixture.

Automated summary

The study demonstrates that by separating soil particles by the size of 125 μm before elution, as high as 80% of petroleum hydrocarbons can be efficiently removed from contaminated soil using a surfactant mixture.