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Selenium Adsorption onto Iron Oxide Layers beneath Coal‐Mine Overburden Spoil
Author(s) -
Donovan Joseph J.,
Ziemkiewicz Paul F.
Publication year - 2013
Publication title -
journal of environmental quality
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.888
H-Index - 171
eISSN - 1537-2537
pISSN - 0047-2425
DOI - 10.2134/jeq2012.0500
Subject(s) - lysimeter , amendment , leachate , leaching (pedology) , environmental remediation , environmental chemistry , iron oxide , overburden , mining engineering , environmental science , chemistry , soil water , geology , metallurgy , contamination , soil science , materials science , biology , ecology , political science , law
A field experimental study to determine the feasibility of sequestering dissolved selenium (Se) leached from coal‐mine waste rock used an iron (Fe)‐oxide amendment obtained from a mine‐drainage treatment wetland. Thirty lysimeters (4.9 × 7.3 m), each containing 57.7 t (1.2–1.8 m thickness) of mine‐run carbonaceous shale overburden, were installed at the Hobet mine in southeastern West Virginia. The fine‐grained Fe‐oxide was determined to be primarily metal oxides (91.5% ferric and 4.37% aluminous), with minor (<3%) SO 4 and Ca, perhaps as gypsum. The mineralogy of the Fe was goethite, although residual ferrihydrite may have been present. Various thicknesses of this amendment (0.0064, 0.057, 0.229, and 0.457 m, plus a zero‐amendment control) were used, ranging from 0 to 2.2% weight percent of the spoil. The control and each treatment were replicated six times to estimate uncertainty due to compositional and hydrological variation. Infiltration of rainfall created leachate that drained to individual batch‐collection tanks that were sampled 46 times at approximately 2‐wk intervals from 2010 to 2012. Basal Fe‐oxide layers in the three highest amendment categories removed up to 76.1% selenium (in comparison to unamended piles) from leachate by adsorption. Only lysimeters with very thin Fe‐oxide layers showed no significant reduction compared with unamended piles. Reproducibility of replicates was within acceptable limits for amended and unamended lysimeters. Results indicate that in situ amendment using Fe‐oxide obtained from treatment of mine water can sequester Se by adsorption on surfaces of goethite and possibly also ferrihydrite. This process is demonstrated to substantially reduce dissolved Se in leachate and improve compliance with regulatory discharge limits.

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