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W2945111903 startingPage "50" @default.
W2945111903 abstract "Scandium, yttrium and lanthanides (REE) are critical raw materials in increasing demand for modern technology, so identifying and developing new sources of REE has become a pressing need. REE concentrations in acid mine drainage (AMD) are several orders of magnitude higher than those in natural water, and their recovery is of economic interest. Passive remediation systems designed to minimize AMD impact on the ecosystem retain REE in solid waste, where basaluminite, Al4SO4(OH)10·5H2O, is the mineral responsible for the scavenge. However, no information about the retention mechanisms of REE is currently available in the literature. The objective of the present work is to study the adsorption of lanthanides, yttrium and scandium onto synthetic basaluminite over a pH range of 4–7 at room conditions. Since sulfate is ubiquitous in AMD, the adsorption has been investigated with variable sulfate concentrations. Experimental results show that sorption onto basaluminite is strongly dependent on pH, starting at pH 5 for lanthanides and yttrium and at pH 4 for scandium. At any given pH values, sorption increases with sulfate concentration. Distribution coefficients, defined as KD = [REEsorbed]/[REEsolution], are higher for Sc, and across the lanthanide series, the distribution coefficients increase from La to Lu according to decreasing ionic radius, where yttrium is considered close to Ho. Experimental results were modeled using a sorption model that considers mass law equations where the strong sulfate aqueous complex, MSO4+, is adsorbed by exchanging a proton with the mineral surface. The dependence of the experimental results on pH suggests the formation of monodentate binding for Y and lanthanides. The bidentate complex for Sc is deduced by the two proton exchange per mol of Sc extracted from the experiments. The thermodynamic constants for the surface complexation reactions were obtained from experiments with high sulfate concentration and were successfully applied to the experiment with low sulfate content and different solid-liquid ratios. Therefore, the model can be applied to interpret the REE geochemistry in natural systems with variable pH and sulfate concentrations." @default.
W2945111903 created "2019-05-29" @default.
W2945111903 creator A5008179229 @default.
W2945111903 creator A5062239258 @default.
W2945111903 creator A5076099223 @default.
W2945111903 date "2019-08-01" @default.
W2945111903 modified "2023-10-16" @default.
W2945111903 title "Sorption of rare earth elements onto basaluminite: The role of sulfate and pH" @default.
W2945111903 cites W111766145 @default.
W2945111903 cites W1544263037 @default.
W2945111903 cites W1545801804 @default.
W2945111903 cites W1553414303 @default.
W2945111903 cites W1963549839 @default.
W2945111903 cites W1967192702 @default.
W2945111903 cites W1967846392 @default.
W2945111903 cites W1968486409 @default.
W2945111903 cites W1968867538 @default.
W2945111903 cites W1986829858 @default.
W2945111903 cites W1993085013 @default.
W2945111903 cites W1994109027 @default.
W2945111903 cites W1995332806 @default.
W2945111903 cites W1998882371 @default.
W2945111903 cites W2002512458 @default.
W2945111903 cites W2003461155 @default.
W2945111903 cites W2011989287 @default.
W2945111903 cites W2012546576 @default.
W2945111903 cites W2016432735 @default.
W2945111903 cites W2017674035 @default.
W2945111903 cites W2021757824 @default.
W2945111903 cites W2023459623 @default.
W2945111903 cites W2028508356 @default.
W2945111903 cites W2030709985 @default.
W2945111903 cites W2031204284 @default.
W2945111903 cites W2032136888 @default.
W2945111903 cites W2033473502 @default.
W2945111903 cites W2038475470 @default.
W2945111903 cites W2041336258 @default.
W2945111903 cites W2046573294 @default.
W2945111903 cites W2047859402 @default.
W2945111903 cites W2051212752 @default.
W2945111903 cites W2052614005 @default.
W2945111903 cites W2052935307 @default.
W2945111903 cites W2058726488 @default.
W2945111903 cites W2067134437 @default.
W2945111903 cites W2072330998 @default.
W2945111903 cites W2074227494 @default.
W2945111903 cites W2074751239 @default.
W2945111903 cites W2078410096 @default.
W2945111903 cites W2078983583 @default.
W2945111903 cites W2080712293 @default.
W2945111903 cites W2081999562 @default.
W2945111903 cites W2083127319 @default.
W2945111903 cites W2083896486 @default.
W2945111903 cites W2084472683 @default.
W2945111903 cites W2091609376 @default.
W2945111903 cites W2121536019 @default.
W2945111903 cites W2129344104 @default.
W2945111903 cites W2317189145 @default.
W2945111903 cites W2320789531 @default.
W2945111903 cites W2471617027 @default.
W2945111903 cites W2508578959 @default.
W2945111903 cites W2620969656 @default.
W2945111903 cites W2735191412 @default.
W2945111903 cites W2762222552 @default.
W2945111903 cites W2765287401 @default.
W2945111903 cites W2772271392 @default.
W2945111903 cites W2773641049 @default.
W2945111903 cites W2885961868 @default.
W2945111903 cites W2905453513 @default.
W2945111903 cites W4237409564 @default.
W2945111903 cites W51113138 @default.
W2945111903 cites W866896292 @default.
W2945111903 doi "https://doi.org/10.1016/j.gca.2019.05.016" @default.
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