The Use of Process Analysis and Simulation to Identify Paths to Improve the Operation of an Iron Ore Gravity Concentration Circuit

M. Sadeghi, C. Bazin
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引用次数: 3

Abstract

The processing of iron ore to recover the valuable iron oxide minerals is commonly carried out using spiral concentrators that separate valuable minerals from non-valuable ones on the basis of the specific gravity of minerals. This paper shows that the analysis of the operation of spirals should not only focus on the minerals (as it is usually the case), but should also consider the particle size of these minerals. Indeed, the sampling of two industrial iron ore circuits and the data processing of the resulting measurements show that unexpectedly about 10% of the coarse heavy iron oxide minerals are not recovered by the spirals of the two circuits. Tests conducted by an independent research center confirm this plant observation. The pilot plant tests also show that the wash water flowrate addition may adversely affect the recovery of coarse heavy mineral particles. A mathematical model for the spiral was implemented into a simulator for an iron ore gravity concentration circuit. The simulator shows a potential 0.7% increase of iron recovery by simply changing the strategy used to distribute the wash water between the rougher and the cleaner/recleaner spirals of the circuit. The simulator also shows that the introduction of a hydraulic classifier into the gravity concentration circuit yields a marginal improvement to the performances of the circuit.
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利用过程分析和模拟方法确定改善铁矿石重选回路运行的路径
利用螺旋选矿机对铁矿进行选矿,回收有价值的氧化铁矿物,根据矿物比重将有价值的矿物从无价值的矿物中分离出来。本文表明,对螺旋运行的分析不仅应关注矿物(通常情况下),还应考虑这些矿物的粒度。事实上,对两个工业铁矿石循环的取样和结果测量的数据处理表明,出乎意料的是,大约10%的粗质重氧化铁矿物没有被两个循环的螺旋回收。一家独立研究中心进行的测试证实了这一植物观察结果。中试还表明,洗涤水流量的添加对粗重矿物颗粒的回收有不利影响。在铁矿重选回路模拟中建立了螺旋的数学模型。模拟器显示,通过简单地改变用于在电路的粗糙和清洁/清洁螺旋之间分配洗涤水的策略,铁回收率可能增加0.7%。仿真结果还表明,在重选回路中引入液压分级器对回路的性能有轻微的改善。
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