Evaluation of Biochars and Activated Carbons for In Situ Remediation Of Sediments Impacted With Organics,Mercury,And Methylmercury

摘要

In situ amendment of activated carbon (AC) to sediments can effectively reduce the bioavailability of hydrophobic organic contaminants.While biochars have been suggested as low-cost and sustainable alternatives to ACs,there are few comparative sorption data especially for mercury (Hg) and methylmercury (MeHg) at the low porewater concentrations in sediments.Here we compare the ability of a wide range of commercially available and laboratory synthesized ACs and biochars to sorb PAHs,PCBs,DDTs,inorganic Hg,and MeHg at environmentally relevant concentrations.Compared to natural organic matter,sorption capacity for most organic compounds was at least 1-2 orders of magnitude higher for unactivated biochars and 3-4 orders of magnitude higher for ACs which translated to sediment porewater PCB concentration reductions of 18-80% for unactivated biochars,and ＞99% for ACs with 5% by weight amendment to sediment. Steam activated carbons were more effective than biochars in Hg sorption and translated to modeled porewater Hg reduction in the range of 94-98% for sediments with low native Kd and 31-73% for sediments with high native K_d values for Hg.Unactivated biochars were as effective as the steam activated carbons for MeHg sorption.Predicted reductions of porewater MeHg were 73-92% for sediments with low native K_d and 57-86% for sediment with high native K_d.ACs with high surface areas therefore are likely to be effective in reducing porewater concentrations of organics,Hg,and MeHg in impacted sediments.Unactivated biochars had limited effectiveness for organics and Hg but can be considered when MeHg exposure is the primary concern.