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

Wilson R. Nyemba; Zvikomborero B. Kapumha; Tawanda Mushiri; Charles Mbohwa

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

机译：可持续矿物加工铂金粉碎和浮选电路的建模，仿真与优化

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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.

机译：从矿石中提取的矿物质的量子对于矿物加工的成功至关重要，因此需要优化过程流动的必要性以恢复尽可能多的矿物质。该研究的目的是识别津巴布韦的铂金加工公司集中器厂的粉碎和浮选电路内的瓶颈和恢复妨碍因素。使用竞技场和LIMN仿真软件进行电路的建模和仿真，以优化过程流程，以提高产量，最大矿物质回收和提高效率和生产率。测试设备布局的替代配置并与原始设置进行比较。该电路的建议重新配置实现的矿物质回收率增加2.97％，生产率4克/吨，导致铂矿石可持续加工的最大化输出。

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来源
《International Journal of Sustainable Manufacturing》 |2020年第4期|共19页
作者
Wilson R. Nyemba; Zvikomborero B. Kapumha; Tawanda Mushiri; Charles Mbohwa;
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作者单位

Department of Mechanical Engineering Science Faculty of Engineering and the Built Environment University of Johannesburg;

Department of Industrial and Manufacturing Engineering Faculty of Industrial Technology National University of Science and Technology;

Department of Quality and Operations Management Faculty of Engineering and the Built Environment University of Johannesburg;

Department of Quality and Operations Management Faculty of Engineering and the Built Environment University of Johannesburg;

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原文格式 PDF
正文语种 eng
中图分类机械制造工艺;
关键词
Comminution; Modelling; Flotation; Platinum processing; Optimisation; Simulation; Sustainability;

机译：粉碎;建模;浮选;铂加工;优化;仿真;可持续性;

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专利

1. Modelling, simulation and optimisation of the comminution and flotation circuits of platinum for sustainable mineral processing [J] . Wilson R. Nyemba, Zvikomborero B. Kapumha, Tawanda Mushiri, International Journal of Sustainable Manufacturing . 2020,第2a4期

机译：可持续矿物加工铂金粉碎和浮选电路的建模，仿真与优化
2. Process Modelling and Univariate Analysis of Comminution Circuits [J] . T. Song, T.H. Yang, J.W. Zhou, IFAC PapersOnLine . 2018,第21期

机译：粉碎电路的过程建模与单变量分析
3. Integration of a liberation model in a simulation framework for comminution circuits [J] . E.M. Pérez-García, J. Bouchard, é. Poulin Minerals Engineering . 2018,第期

机译：解放模型在粉碎电路模拟框架中的集成
4. MODELING AND SIMULATION OF MINERAL PROCESSING CIRCUITS USING JKSIMMET AND JKSIMFLOAT [C] . S. Schwarz, J. M. Richardson SME annual meeting exhibit;CMA National Western Mining conference . 2013

机译：使用JKSIMMET和JKSIMFLOAT进行矿山加工过程的建模和仿真
5. Modeling and optimization of fine grinding of minerals in high-pressure roll mill - ball mill hybrid comminution circuits. [D] . De, Asoke Kumar. 1995

机译：高压辊磨机-球磨机混合粉碎回路中矿物精磨的建模和优化。
6. A Novel Mineral Flotation Process Using Thiobacillus ferrooxidans [O] . Toru Nagaoka, Naoya Ohmura, Hiroshi Saiki 1999

机译：铁氧化硫杆菌的新型矿物浮选工艺
7. Investigation of froth flotation for beneficiation of printed circuit board comminution fines [O] . Ogunniyi I.O., Vermaak M.K.G. (Matthys Karel Gerhardus) 2008

机译：用于印刷电路板粉碎细粉选矿的泡沫浮选研究

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

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