Abstract
A novel composite of montmorillonite-supported carboxymethyl cellulose-stabilized nanoscale iron sulfide (CMC@MMT-FeS), prepared using the co-precipitation method, was applied to remediate hexavalent chromium (Cr(VI))-contaminated soil. Cr(VI)-removal capacity increased with increasing FeS-particle loading. We tested the efficacy of CMC@MMT-FeS at three concentrations of FeS: 0.2, 0.5, and 1 mmol/g, hereafter referred to as 0.2 CMC@MMT-FeS, 0.5 CMC@MMT-FeS, and 1.0 CMC@MMT-FeS, respectively. The soil Cr(VI) concentration decreased by 90.7% (from an initial concentration of 424.6 to 39.4 mg/kg) after 30 days, following addition of 5% (composite–soil mass proportion) 1.0 CMC@MMT-FeS. When 2% 0.5 CMC@MMT-FeS was added to Cr(VI)-contaminated soil, the Cr(VI) removal efficiency, as measured in the leaching solution using the toxicity characteristic leaching procedure, was 90.3%, meeting the environmental protection standard for hazardous waste (5 mg/kg). The European Community Bureau of Reference (BCR) test confirmed that the main Cr fractions in the soil samples changed from acid-exchangeable fractions to oxidable fractions and residual fractions after 30 days of soil remediation by the composite. Moreover, the main complex formed during remediation was Fe(III)–Cr(III), based on BCR and X-ray photoelectron spectroscopy analyses. Biotoxicity of the remediated soils, using Vicia faba and Eisenia foetida, was analyzed and evaluated. Our results indicate that CMC@MMT-FeS effectively immobilizes Cr(VI), with widespread potential application in Cr(VI)-contaminated soil remediation.
Highlights
Potential toxic metal contamination is a global concern, because toxic metals can bioaccumulate in the food chain, causing high levels of toxicity in the human body [1,2,3]
By estimating the basic spacing of D001, we found that the interlayer distance of the modified MMT did not expand, indicating that nano-FeS had not formed in the clay interlayer space
The Cr(VI) content in soil samples during aging, after 5% of the 0.5 or 1.0 carboxymethyl cellulose (CMC)@MMT-FeS, or 2.5 mmol FeSO4 were added to remediate the contaminated soil, is shown in Figure 3a: the immobilization of Cr(VI) in contaminated soil occurred mainly in the first 15 days, and the content of Cr(VI) in soil tended to stabilize after 15 days of remediation
Summary
Potential toxic metal contamination is a global concern, because toxic metals can bioaccumulate in the food chain, causing high levels of toxicity in the human body [1,2,3]. Chromium (Cr), a potential toxic metal, is often released into water or soil from chromate manufacturing, textile dyeing, tanneries, Int. J. Res. Public Health 2020, 17, 6087; doi:10.3390/ijerph17176087 www.mdpi.com/journal/ijerph
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