Activation-flotation kinetics of depressed marmatite and chalcopyrite in cyanidation tailings using sodium hypochlorite as activator

Q2 Materials Science

Minerals & Metallurgical Processing Pub Date : 2016-08-01 DOI:10.19150/MMP.6749

Xiuli Yang, Xiong Huang, T. Qiu

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引用次数: 3

Abstract

The purpose of this study is to investigate the effect of the dosage of sodium hypochlorite as activator on the flotations of depressed marmatite and depressed chalcopyrite, with a focus on activation-flotation kinetics. Four flotation kinetic models were applied to test data using 1stOpt statistical analysis software to estimate the relationships between the maximum flotation recovery rates for the depressed marmatite and depressed chalcopyrite, the flotation rate constants and the sodium hypochlorite dosages. Within the range investigated, the highest flotation performances of depressed marmatite and depressed chalcopyrite were obtained at 2.5 mL/L sodium hypochlorite with zinc recovery rate of 93.8 percent and 3 mL/L sodium hypochlorite with copper recovery rate of 94.6 percent, respectively, after four minutes of flotation. A second-order model with rectangular distribution of flotabilities gave the best fit to test data collected at various sodium hypochlorite dosages. For the highest flotation performances of depressed marmatite and depressed chalcopyrite, the respective equations of their flotation models were derived and presented.

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次氯酸钠作活化剂对氰化尾矿中抑制型铁闪锌矿和黄铜矿的活化浮选动力学

研究了次氯酸钠用量对抑制铁闪锌矿和抑制黄铜矿浮选的影响，重点研究了活化浮选动力学。采用4种浮选动力学模型，利用1stOpt统计分析软件对试验数据进行分析，估计了抑制铁长石和抑制黄铜矿的最大浮选回收率、浮选速率常数与次氯酸钠用量之间的关系。在研究范围内，浮选时间为4 min，次氯酸钠浓度为2.5 mL/L时，锌回收率为93.8%，次氯酸钠浓度为3 mL/L时，铜回收率为94.6%，抑制铁闪锌矿和抑制黄铜矿浮选效果最佳。对不同次氯酸钠剂量下的试验数据，采用矩形分布的二阶模型拟合效果最好。针对抑制铁闪锌矿和抑制黄铜矿的最佳浮选性能，推导并给出了各自的浮选模型方程。

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来源期刊

Minerals & Metallurgical Processing 工程技术-矿业与矿物加工

CiteScore

0.84

自引率

0.00%

发文量

审稿时长

>12 weeks

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