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引用次数: 0
摘要
电絮凝工艺在矿山工业中是一种新颖的工艺方法,特别是在选矿厂脱水系统中水的回用。本研究对电絮凝工艺在保留时间(5-15 min)、初始pH(4-10)、电流密度(41.6-166.6 A/m2)、电极类型(Fe、Fe-Al、Al)等不同操作条件下去除浓缩浓缩器溢流水中的硬度和氯离子进行了研究。采用d -最优响应面设计进行四因子三水平优化。结果表明,电絮凝工艺的最佳条件为停留时间为15 min,初始pH为9.08,电流密度为139.59 a /m2,电极类型为Fe-Al。在此条件下,对硬度和氯离子的去除率分别为60.11%和98.38%,理想值为0.989。这些结果说明了EC工艺作为一种影响分离硬度和氯离子去除的方法是有效的。
Hardness and chloride removal in dewatering system: Modeling and optimization of electrochemical reaction
The electrocoagulation (EC) process is a novel approach in the mining industry, especially to recycle water in the dewatering system of a mineral processing plant. In this research, the electrocoagulation process was studied to remove the hardness and chloride ions from concentrate thickener overflow water under different operating conditions: retention time (5–15 min), initial pH (4–10), current density (41.6–166.6 A/m2) and electrode type (Fe, Fe-Al, Al). Four factors with three levels with the D-optimal response surface design were applied for optimization. As a result, the optimal situation for the electrocoagulation process was characterized by a retention time of 15 min, initial pH of 9.08, the current density of 139.59 A/m2, and electrode type Fe-Al. In this situation, the maximum removal efficiency of hardness (60.11%) and chloride (98.38%) were yielded with a desirability value of 0.989. These results illustrated the effectiveness of the EC process as an influence method for the removal of hardness and chloride in terms of separation.
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