Determining an appropriate range for the number of cuboid lifters in ball mills using DEM

IF 1.1 Q3 MINING & MINERAL PROCESSING
M. Chegeni, Sajad Kolahi
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引用次数: 1

Abstract

The number of lifters in the liner of ball mills and the mill rotation speed are among the most significant factors affecting the behavior of grinding charge (balls) and their motion trajectory, and consequently, the comminution mechanism in these mills. In this research, in order to find a suitable range for the number of lifters in the liner of ball mills, the DEM method is utilized. Initially, a pilot-scale ball mill with dimensions of 2.0 m × 1.11 m without any lifter is simulated. Afterwards, by adding, respectively, 1, 2, 4, 8, 16, 20, 26, 30, and 32 cuboid lifter(s) with dimensions of 2 m × 5 cm × 5 cm, nine other separate simulations are performed. The influences of the number of cuboid lifters on the two new factors introduced here, namely ‘head height’ (HH) and ‘impact zone length’ (IZL) at various mill speeds, that is, 70% and 80% of its critical speed (CS) are investigated. The results indicate that in order to find a suitable range for the number of lifters in the liner of ball mills, it is necessary to consider these two parameters simultaneously as the criteria for selecting the appropriate range, That is, liners that simultaneously produce both a higher HH and a greater IZL are more suitable for use in the industry. The results also demonstrate that the suitable range for the number of cuboid lifters in the liner of ball mills is between 16 and 32, which field research on the ball mills of three different plants in the industry confirms the accuracy of the results obtained in this research. Unlike the previous research works, it has now been shown that the number of ball mill lifters does not only depend on the diameter of the mill but also depends on the width, height, angle of the lifter, and generally on the type of lifter.
使用DEM确定球磨机中长方体挺杆数量的适当范围
球磨机内衬中提升机的数量和磨机转速是影响研磨装药(球)行为及其运动轨迹的最重要因素之一,因此影响这些磨机中的粉碎机制。在本研究中,为了找到球磨机缸套中挺杆数量的合适范围,采用了DEM方法。最初,模拟了一个尺寸为2.0 m×1.11 m、没有任何升降机的中试规模球磨机。然后,通过分别添加1、2、4、8、16、20、26、30和32个尺寸为2m×5cm×5cm的长方体提升器,进行了其他9个单独的模拟。研究了在不同轧制速度下,即其临界速度(CS)的70%和80%时,长方体挺杆数量对两个新因素,即“头部高度”(HH)和“冲击区长度”(IZL)的影响。结果表明,为了找到球磨机衬板中提升机数量的合适范围,有必要同时考虑这两个参数作为选择合适范围的标准。即,同时产生更高HH和更大IZL的衬板更适合在工业中使用。研究结果还表明,球磨机衬板中长方体挺杆的合适数量范围在16到32之间,这对行业中三个不同工厂的球磨机的现场研究证实了本研究结果的准确性。与以前的研究工作不同,现在已经表明,球磨机提升机的数量不仅取决于磨机的直径,还取决于提升机的宽度、高度、角度,通常还取决于升降机的类型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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