Chemical extraction of arsenic from contaminated soil under subcritical conditions

In this research, we investigated a chemical extraction process, under subcritical conditions, for arsenic (As)-contaminated soil in the vicinity of an abandoned smelting plant in South Korea. The total concentration of As in soil was 75.5 mg/kg, 68% of which was As(+ III). X-ray photoelectron spectroscopy analysis showed that the possible As(+ III)-bearing compounds in the soil were As2O3 and R-AsOOH. At 20 °C, 100 mM of NaOH could extract 26% of the As from the soil samples. In contrast, 100 mM of ethylenediaminetetraacetic acid (EDTA) and citric acid showed less than 10% extraction efficiency. However, as the temperature increased to 250 and 300 °C, extraction efficiencies increased to 75–91% and 94–103%, respectively, regardless of the extraction reagent used. Control experiments with subcritical water at 300 °C showed complete extraction of As from the soil. Arsenic species in the solution extracted at 300 °C indicated that subcritical water oxidation may be involved in the dissolution of As(+ III)-bearing minerals under given conditions. Our results suggest that subcritical water extraction/oxidation is a promising option for effective disposal of As-contaminated soil.

Research highlights
► Extraction efficiency by EDTA, citric acid, and NaOH is limited at room temperature.
► Extraction efficiencies increase to 94–103% at 300 °C regardless of the extraction reagent used.
► Subcritical water oxidation may be responsible for the dissolution of As(+ III)-bearing minerals.