建模，模拟和优化的粉碎和浮选回路的铂可持续矿物处理

Q2 Social Sciences

International Journal of Sustainable Manufacturing Pub Date : 2020-04-23 DOI:10.1504/ijsm.2020.10028812

W. R. Nyemba, Zvikomborero B. Kapumha, T. Mushiri, C. Mbohwa

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引用次数: 0

摘要

从矿石中提取的矿物数量对矿物加工的成功至关重要，因此有必要优化工艺流程，以便尽可能多地回收矿物。这项研究的目的是确定津巴布韦一家铂加工公司选矿厂粉碎和浮选回路中的瓶颈和阻碍回收的因素。利用Arena和Limn模拟软件对电路进行建模和仿真，以优化工艺流程，以提高吞吐量，最大限度地回收矿物，提高效率和生产力。对设备布置的备选配置进行了测试，并与原始设置进行了比较。建议的电路重新配置使矿物回收率提高了2.97%，生产率提高了4克/吨，从而实现了铂矿石可持续加工的最大产量。

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Modelling, simulation and optimisation of the comminution and flotation circuits of platinum for sustainable mineral processing

The quantum of minerals extracted from ore is critical for the success of mineral processing, hence the necessity to optimise the process flows in order to recover as much minerals as possible. The aim of this research was to identify bottlenecks and recovery-hampering factors within the comminution and flotation circuits of the concentrator plant at a platinum processing company in Zimbabwe. Modelling and simulation of the circuits were carried using Arena and Limn simulation software to optimise the process flows for improved throughput, maximum mineral recovery and enhanced efficiency and productivity. Alternative configurations of the layout of equipment were tested and compared with the original setup. The recommended reconfiguration of the circuits achieved increases of 2.97% in mineral recovery and 4 grams/ton in productivity resulting in a maximised output for the sustainable processing of platinum ore.

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来源期刊

International Journal of Sustainable Manufacturing Social Sciences-Social Sciences (miscellaneous)

CiteScore

1.90

自引率

0.00%

发文量