改性D2EHPA萃取生物浸出液中的锌:优化及热力学研究

IF 1.1 Q3 MINING & MINERAL PROCESSING
P. Tahmasebizadeh, S. Javanshir
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引用次数: 5

摘要

采用皂化二(2-乙基己基)磷酸(D2EHPA)从工业浸出液中提取锌。该溶液为含锌50 g/L、铁6.3 g/L的低品位铅锌硫化矿生物浸出液。采用二步法对D2EHPA进行改性,获得了选择性高的Zn(II)萃取率。首先,在浸锌前,通过沉淀将浸出液中的大量铁(87%)以黄钾铁矾的形式去除;其次,研究了浸锌过程中接触时间、皂化程度、皂化剂类型、搅拌速度、pH、温度、D2EHPA浓度和物相比(a:O)等参数对浸锌效果的影响。结果表明,在D2EHPA含量为20%、皂化度为15%、转速为650、pH为2、A:O比为1:1的条件下,在25±2℃环境温度下,提取时间为90 s,锌提取率可达98.4%;在相同条件下,比未皂化的D2EHPA高25%。此外,在理论上,用皂化D2EHPA完全提取锌需要一个步骤,而使用D2EHPA所需的步骤约为三个。因此,该工艺的优点是双重的:减少萃取阶段的数量,不需要在每个萃取阶段中和萃余液。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Solvent Extraction of Zinc from a Bioleaching Solution by Modification of D2EHPA: Optimization and Thermodynamic Studies
In this work, zinc extraction from an industrial leach solution was investigated by saponified di(2-ethylhexyl)phosphoric acid (D2EHPA). The solution obtained was from a bioleaching process of a low-grade lead-zinc sulfide ore that contained 50 g/L of zinc and 6.3 g/L of iron. The selective and high Zn(II) extraction yield were obtained by modification of D2EHPA in a proposed two-step process. Firstly, a significant amount of iron (87%) was removed as sodium-jarosite via precipitation from the pregnant leaching solution (PLS) prior to zinc extraction, and secondly, the effective parameters involved in zinc extraction including the contact time, saponification degree, type of saponifier, stirring speed, pH, temperature, D2EHPA concentration, and phase ratio (A:O) were investigated. The results obtained showed that 98.4% of zinc could be extracted under the optimum conditions, i.e. 20% D2EHPA, 15% saponification degree, 650 rpm, pH 2, and an A:O ratio of 1:1 at the ambient temperature (25 ± 2 °C) during 90 s; it was 25% higher than using non-saponified D2EHPA under the same conditions. Moreover, while one theoretical step was required for the complete extraction of zinc by saponified D2EHPA, the required number of steps using D2EHPA was about three. Therefore, the advantages of the process would be two-fold: reducing the number of extraction stages and no need for neutralizing the raffinate in every extraction stage.
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来源期刊
Journal of Mining and Environment
Journal of Mining and Environment MINING & MINERAL PROCESSING-
CiteScore
1.90
自引率
25.00%
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