控尘风筒出风口形式变化对掘进工作面粉尘运移的影响研究

    Study on the influence of air outlet form change of dust control air duct on dust transport in tunneling working face

    • 摘要: 为研究控尘风筒出风口形状及数量变化对掘进巷道主要区域风速变化和粉尘运移的影响,通过FLUNET软件,对不同控风口形状、不同控风口间距分别进行模拟计算,得到对应条件下巷道内1.5 m高度断面、距迎头不同距离断面的风速及粉尘浓度变化云图,以及人行侧采样点位置的风速及粉尘浓度变化曲线图,结合寸草塔煤矿井下掘进巷道进行验证。研究结果表明:在压抽比1.2、轴径向出风比1∶3条件下,圆柱形控风口控尘效果优于矩形控风口和单个矩形控风口;控风口间距为750 mm控尘风筒主要位置的粉尘浓度小于间距为500 mm对应位置的粉尘浓度;现场验证过程中,不同控风口条件下,司机最大降尘效率为92.54%,粉尘浓度为41.3 mg/m3,一运与二运转载点后方5 m位置最大降尘效率为91.56%,粉尘浓度为31.7 mg/m3,控风口间距为750 mm的控尘效果优于间距为500 mm的控尘效果,这与数值模拟结果一致。

       

      Abstract: To study the impact of changes in the shape and quantity of dust control air duct vents on wind speed changes and dust transport in the main areas of the excavation tunnel, simulation calculations were conducted using FLUNET software for different shapes and spacing of control air vents, and corresponding cloud diagrams of wind speed and dust concentration changes were obtained for the 1.5 m high section in the tunnel and the section at different distances from the front end under corresponding conditions, as well as the wind speed and dust concentration change curves at the sampling points on the pedestrian side, verification was conducted in conjunction with the underground excavation roadway of Cuncaota Coal Mine. The research results show that under the conditions of a pressure extraction ratio of 1.2 and an axial and radial air outlet ratio of 1∶3, the dust control effect of the cylindrical control air outlet is better than that of the rectangular control air outlet and a single rectangular control air outlet. The dust concentration at the main position of the control air duct with the spacing of 750 mm is less than that at the corresponding position with the spacing of 500 mm; during the on-site verification process, under different air inlet conditions, the maximum dust reduction efficiency of the driver was 92.54%, with the dust concentration of 41.3 mg/m3. The maximum dust reduction efficiency at a distance of 5 m behind the first and second transfer points was 91.56%, with the dust concentration of 31.7 mg/m3. The dust control effect of 750 mm between the spacing of control air vents is better than that of 500mm between the spacing of control air vents, which is consistent with the numerical simulation results.

       

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