黄原酸酯和羟肟酸酯在孔雀石上的吸附机理研究

IF 1.1 Q3 MINING & MINERAL PROCESSING
M. Mohammadkhani, M. Abdollahy, M. Khalesi
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引用次数: 2

摘要

孔雀石等氧化铜矿物对传统的硫化铜捕收剂反应不佳,需要替代浮选方案。在许多铜矿中,重要的氧化铜矿物,特别是孔雀石,与硫化物矿物有关。考虑到黄原酸酯在硫化物矿物和硫化铜矿物的浮选中应用最为广泛,并且羟肟酸盐对氧化铜矿物表现出良好的选择性。利用黄原酸酯和羟肟酸盐的协同作用是提高氧化铜矿物和硫化物矿物浮选效率的有效途径。在这项工作中,我们研究了戊基黄原酸钾(PAX)和烷基氢xamate钾(HXM)与天然孔雀石的单独相互作用,并探讨了它们对孔雀石浮选的协同作用。讨论了孔雀石在捕收剂溶液中的溶解度、孔雀石表面电位的变化、吸附动力学、吸附密度、动态接触角、FT-IR分析和小规模浮选的结果。结果表明,PAX和HXM在孔雀石表面化学共吸附,在PAX/HXM混合体系中,由于共吸附机制,PAX在孔雀石上的吸附量显著增加。浮选结果证实,与PAX或HXM的单独系统相比,混合PAX/HXM表现出优异的孔雀石浮选性能。基于这些结果,混合PAX/HXM对孔雀石表面疏水性表现出显著的协同作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Mechanism of Adsorption of Xanthate and Hydroxamate on Malachite
Copper oxide minerals such as malachite do not respond well to the traditional copper sulfide collectors, and require alternative flotation schemes. In many copper ore mines, significant copper oxide minerals, especially malachite, are associated with sulfide minerals. Considering that xanthates are most widely used in the flotation of sulfide minerals as well as copper sulfide minerals and, hydroxamate has shown a good selectivity for copper oxide minerals. Use of the synergistic effect of xanthate and hydroxamate can be an effective way to increase the flotation efficiency of copper oxide minerals along with sulfide minerals. In this work, we investigate the individual interactions of potassium amyl xanthate (PAX) and potassium alkyl hydroxamate (HXM) with the natural malachite and explore their synergistic effects on the malachite flotation. The results of solubility of malachite in collector solutions, changes in the malachite surface potential, adsorption kinetics, adsorption densities, dynamic contact angles, FT-IR analyses, and small-scale flotations, are discussed. The results obtained demonstrate that PAX and HXM are chemically co-adsorbed on the malachite surface, and the amount of PAX adsorbed on the malachite surface is considerably increased in the mixed PAX/HXM systems because of the co-adsorption mechanism. The flotation results confirm that the mixed PAX/HXM exhibit a superior flotation performance of malachite compared to the individual system of PAX or HXM. Based on these results, the mixed PAX/HXM exhibit a remarkable synergism effect on malachite surface hydrophobicity.
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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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