边坡钻孔作业中粉尘分布及其影响因素的数值模拟

Numerical simulation of dust distribution and influencing factors in slope drilling

  • 摘要: 为了改善露天矿边坡钻机穿孔作业粉尘质量浓度超标的现状,依据气固两相流动及梯度输送理论,对粉尘在风流中运动、扩散及沉降过程进行分析,建立粉尘在空气中的运动、扩散及沉降方程.以某铁矿S03#采场为例,运用计算流体力学的Fluent软件对边坡钻机粉尘质量浓度分布进行数值模拟,并与现场实测数据对比分析,模拟结果与实测数据基本吻合.研究结果表明:采场内粉尘质量浓度沿测点线方向先急剧上升,达到最大值后迅速下降至一个较小值,后逐步缓慢下降;穿孔开始后,粉尘质量浓度随时间推移逐步升高,至一定值时保持恒定.当采场风速为3.5 m·s-1、供气压力为1 MPa、钻孔深度为12 m及钻具转速为84 r·min-1时,粉尘质量浓度较低.

     

    Abstract: To improve the situation of dust concentration exceeding during side slope drilling in an open-pit mine, according to the theories of gas-solid two-phase flow and gradient transportation, the dust movement, diffusion and sedimentation equations were established based on the analysis of dust movement, diffusion and sedimentation characteristics in the air. Taking S03# slope of an iron mine as an example, the Fluent software for computational fluid mechanics was used for numerical simulation of dust concentration distribution during side slope drilling. In contrast to field measured data, the simulation result almost conforms to the measured data. The research result shows that the dust concentration firstly increases sharply and reaches a maximum value with increasing distance from the drilling position. After that, it decreases quickly to a lower value and then gradually decreases. What is more, when the drilling begins, the dust concentration keeps on rise until a certain value and remains during the whole drilling process. Meanwhile, the dust concentration achieves its minimum value at a wind speed of 3.5 m·s-1, an air pressure of 1 MPa, a drilling depth of 12 m, and a drilling speed of 84 r·min-1.

     

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