Temperature Effect on Migration of Zn and Cd Through Natural Clay |
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Authors: | Nam Young Do Seung Rae Lee |
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Affiliation: | (1) Geoenvironmental Research Centre (GRC), School of Engineering, Cardiff University, Cardiff, CF24 0YF, United Kingdom;(2) Department of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology, Daejeon, 305–701, Korea |
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Abstract: | To investigate the effect of temperature on effective diffusion coefficients and retardation factors for Zn and Cd, combined diffusion and sequential extraction analyses were conducted at 15 ˚C and 55 ˚C. The effective diffusion coefficients of the metals increased up to ten times according to the increased temperature. On the other hand, the effect of temperature on the retardation factor depended on the retention mechanisms of the metals. The distribution coefficient for Zn, which was mainly partitioned in the carbonate phase, increased up to two times with the increase in temperature. On the other hand, the distribution coefficient for Cd, which was mainly partitioned in the exchangeable phase, was hardly affected by the temperature change. Results of combined diffusion and sequential extraction analysis showed that the effect of temperature on the heavy metals’ (Zn and Cd) migration through the compacted natural clay was influenced by the combined effects of the diffusion coefficient and the retardation factor. Additionally, we could also observe the change in retention mechanism for the metals with the change in pore water concentration. |
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Keywords: | Cd(II) combined diffusion sequential extraction analysis effective diffusion coefficient retardation factor temperature effect Zn(II) |
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