Partitioning between aqueous and soil system components for soluble tungsten and lead species.

Land Contamination & Reclamation Pub Date : 2009-04-01 DOI:10.2462/09670513.917

C. Griggs, S. Larson, Jared L. Johnson, D. Felt, C. Nestler

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引用次数: 6

Abstract

The establishment of reliable sorptive Kd values for a given metal in a given soil is a critical preliminary step in the determination of metal mobility. The distribution coefficient, Kd, is partially based on assuming the contaminant is a single species, and equilibrium conditions are established between the solid and aqueous phases. However, metals such as tungsten (W) may exist as different chemical species, depending on the aqueous and solid phase chemical environment, and are shown to require an extended period of time for the system to approach equilibrium. Due to the more involved speciation characteristics associated with tungsten, the effect of extended equilibrium periods on W Kd values is examined in this study. The sorption characteristics of tungsten and lead in three natural silty sand (SM) soils are compared. Partition coefficients were obtained both at the traditional 24hour contact time (Kd) and then again after 100 days (Kd). The Kd values were for Pb representative of Kd values for the soils examined. However, in the case of W, dynamic sorptive behavior was observed. The ratios of Day 100 to Day 1 distribution coefficients were 19.6, 6.2, and 2.4 for tungsten in samples SM1, SM2, and SM3, respectively. This suggests that a longer equilibration time may provide a more accurate reflection of W mobility in subsurface environments when using the sorption Kd as a predictive tool.

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水溶性钨和铅在水和土壤系统组分之间的分配。

确定特定土壤中特定金属的可靠吸附Kd值是确定金属迁移率的关键初步步骤。分配系数Kd部分基于假设污染物为单一物质，并在固相和水相之间建立平衡条件。然而，像钨(W)这样的金属可能以不同的化学物质存在，这取决于水相和固相化学环境，并且表明需要较长的时间才能使系统接近平衡。由于与钨相关的更复杂的物种形成特征，延长平衡周期对wkd值的影响在本研究中进行了研究。比较了三种天然粉砂(SM)土壤对钨和铅的吸附特性。分别在传统接触时间24小时(Kd)和100天后(Kd)获得分区系数。Pb的Kd值代表了所测土壤的Kd值。然而，在W的情况下，观察到动态吸附行为。SM1、SM2和SM3样品中钨的分布系数与第100天的比值分别为19.6、6.2和2.4。这表明，当使用吸附Kd作为预测工具时，较长的平衡时间可以更准确地反映W在地下环境中的迁移率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Land Contamination & Reclamation

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