Interactions between marmatite and bornite during the oxidative dissolution process in abiotic and biotic systems

Zhang, Yanjun and Zhao, Hongbo and Zhang, Yisheng and Qian, Lu and Zhang, Luyuan and Meng, Xiaoyu and Lv, Xin and Abhilash, and Janjua, Hussnain Ahned and Qiu, Guanzhou (2019) Interactions between marmatite and bornite during the oxidative dissolution process in abiotic and biotic systems. RSC Advances, 9 (IF-3.51). pp. 26609-26618.

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Abstract

Marmatite and bornite are commonly associated together in nature, and their interactions in an acidic environment are vital for both (bio)hydrometallurgy and acid mine drainage (AMD) production. In this work, dissolution experiments (marmatite : bornite ¼ 2 : 0, 3 : 1, 1 : 1, 1 : 3 and 0 : 2) accompanied by analytic techniques such as electrochemical methods, Raman spectroscopy and synchrotron radiation- XRD (SR-XRD) were utilized to interpret the interactions between marmatite and bornite in acidic abiotic and biotic systems. The dissolution experiments showed that marmatite can significantly accelerate the oxidative dissolution of bornite, especially in the abiotic system. On the contrary, bornite inhibited the oxidative dissolution of marmatite when the percentage of bornite was high. Electrochemical measurements proved that the galvanic interactions between marmatite and bornite were slight and should not be the main cause for the interactions. Combined with the dissolution experiments, analytic techniques and previous references, it could be speculated that marmatite accelerated bornite dissolution mainly by providing an iron source, which acted as the energy source for microorganisms and oxidants. Bornite affected the dissolution of marmatite mainly by Cu2+ ions dissolving from bornite. Bornite inhibited the oxidative dissolution of marmatite mainly because a high Cu2+ concentration could significantly hinder marmatite dissolution. In addition, the formation of elemental sulfur or jarosite was also one important cause. Bornite intensified marmatite dissolution when the percentage of bornite or the Cu2+ concentration was extremely low and then, a synergic dissolution process occurred.

Item Type:Article
Official URL/DOI:http://10.1039/c9ra03658j
Uncontrolled Keywords:bornite, marmatite, oxidative, biotic, synergistic
Divisions:Metal Extraction and Forming
ID Code:7890
Deposited By:Dr. Abhilash .
Deposited On:18 Sep 2019 18:03
Last Modified:30 Sep 2019 10:47
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