2016
DOI: 10.2495/sdp-v11-n2-119-127
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Suspended electrodialytic extraction of toxic elements for detoxification of three different mine tailings

Abstract: Environmental effects of mining activities partly origin from the production of tailings, and the exposure of these to ambient physical and chemical conditions. Removal of toxic elements from tailings prior to deposition could improve environmental performance and reduce risks. Experimental results have shown that electrokinetic treatment can remove Cd, Cu, Pb, and Zn from tailings soils; As from tailings; and Cu from tailings. Still, however, a major concern is the long treatment-time required for the element… Show more

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Cited by 5 publications
(1 citation statement)
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“…In comparison with mine tailings disposal strategies of reuse, recycling and reprocessing (Edraki et al, 2014), we argue that a more proactive paradigm could be to extract more valuable metals from tailings before final disposal or re-use. One applicable method is electrodialytic remediation, which has been shown to extract up to 70% of metals present in mine tailings (Jensen et al, 2016). What remains unclear is whether there is a trade-off between mineral resource recovery (extracting more metals from tailings) and the environmental impacts of tailings after electrodialysis.…”
Section: Introductionmentioning
confidence: 99%
“…In comparison with mine tailings disposal strategies of reuse, recycling and reprocessing (Edraki et al, 2014), we argue that a more proactive paradigm could be to extract more valuable metals from tailings before final disposal or re-use. One applicable method is electrodialytic remediation, which has been shown to extract up to 70% of metals present in mine tailings (Jensen et al, 2016). What remains unclear is whether there is a trade-off between mineral resource recovery (extracting more metals from tailings) and the environmental impacts of tailings after electrodialysis.…”
Section: Introductionmentioning
confidence: 99%