湿法冶金尾矿的电动脱水研究

J. Q. Shang, Y. Xu
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引用次数: 2

摘要

红土镍矿的湿法冶金过程(酸浸后再中和石灰)产生的细粒尾矿(浸出渣和石膏)证明很难用常规脱水方法(增稠剂/真空过滤器)脱水。为了产生致密的不分离的泥浆或膏体,并以稳定的堆栈形式沉积在表面,需要更创新的脱水方法。目前的工作包括将红土镍尾矿加厚,以生产用于地表处理的膏状产品。与传统的泥浆沉积相比,实现更大的脱水将提供优势,例如减少蓄水池的大小;减少围堵水坝的规模和成本;减少输往蓄水池的水。它还具有环境优势,包括减少渗滤液的产生和降低浆料的渗透性(均质质量)。电动固结(EK)是一种土壤改良技术,主要用于软质细粒土壤,如粉砂和粘土。这种处理方法包括在嵌入土壤中的电极之间施加直流电。电流诱导土壤水从阳极(正极)向阴极(负极)移动。当水被允许在阴极排出并被禁止进入阳极时,就实现了脱水和固结。电化学反应与EK过程有关,会导致土壤pH梯度,电极处产生氢气和氧气,以及消耗性阳极的腐蚀,这些问题必须在具体项目的基础上加以解决。本研究的目的是研究利用EK对湿法冶金过程中的尾矿(浸出渣和石膏)进行脱水的可行性。通过测定电渗(EO)流速和电渗系数(ke)来评价电渗脱水效果。该研究包括全面的材料表征和EK细胞测试。研究结果表明:EO在尾矿样品中产生了明显的水流。尾矿具有稳定的导电性,即在恒定电压下,施加的电流可以在一段时间内保持相对恒定。ke值在1.00 × 10-9 ~ 7.00 × 10-9 m2/V/sec范围内,有利于EO脱水。饱和尾矿的电导率在2000 ~ 2300S/cm之间,尾矿孔隙水电导率为8000S/cm,有利于EK脱水的电耗。EO试验前后尾矿的zeta电位在pH值4 ~ 9范围内稳定,表明EO脱水对未经预处理的尾矿是有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrokinetic dewatering of mine tailings from hydrometallurgical processes
Fine-grained tailings (leach residue and gypsum) resulting from hydrometallurgical processes (acid leach followed by lime neutralisation) of nickel laterite ores are proving difficult to dewater using conventional dewatering methods (thickeners/vacuum filters). To generate a dense non-segregating slurry or paste that can be deposited on surface in the form of a stable stack, more innovative dewatering methods are required. The current work involves working on thickened nickel laterite tailings to produce a paste product for surface disposal. Achieving greater dewatering would offer advantages compared to conventional slurry deposition such as reducing the size of impoundments; reducing the size and costs of containment dams; and decreasing water sent to the impoundment. It also offers environmental advantages, including reduced leachate generation and decreased permeability of paste (homogeneous mass). Electrokinetic (EK) consolidation is a soil improvement technique that has been mostly used for soft fine-grained soils, such as silts and clays. The treatment involves applying a direct current across electrodes embedded into the soil. The current induces the movement of soil–water from the anode (positive pole) toward the cathode (negative pole). Dewatering and consolidation are achieved when the water is permitted to drain at the cathode and prohibited to enter the anode. The electrochemical reactions are associated with the EK process, which leads to a pH gradient in soil, generation of hydrogen and oxygen gases at electrodes and corrosion of consumable anodes, which must be addressed on a project-specific basis. The objective of this research is to study the viability of using EK to dewater tailings (leach residue and gypsum) from hydrometallurgical processes. The electroosmotic (EO) flow rate and coefficient of EO permeability (ke) are measured to assess the effectiveness of EK dewatering. The study includes comprehensive material characterisation and EK cell tests. The results of the study indicate: EO generated significant water flow in the tailings sample. The tailings have stable electrical conductivity, i.e. the applied current can be maintained relatively constant over time under a constant voltage. The ke values are in the range of 1.00 × 10-9 to 7.00 × 10-9 m2/V/sec, which is considered very favourable for EO dewatering. The electric conductivities of the saturated tailings are in the range of 2,000–2,300 S/cm, and the tailings porewater has the electric conductivity of 8,000 S/cm, which is considered favourable in terms of power consumption for EK dewatering. The zeta potentials of the tailings before and after EO tests are stable in the pH range of 4–9, indicating EO dewatering would be effective in tailings without pre-treatment.
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