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基于Ventsim的基建期井下临时通风系统优化研究

Study on optimization of underground temporary ventilation system during infrastructure period based on Ventsim

  • 摘要: 某新建矿山通风系统采用单翼对角式通风方式,斜坡道进风,竖井回风,通风方法采用机械抽出式。井下基建已形成12 m、−8 m、−28 m、−48 m分段,基建期矿山通风系统尚未形成。随着各分段工程推进,通风距离增加,为解决井下临时通风系统存在的风流短路、工作面供风量不足及通风效率低等问题,从通风措施工程、通风设备、通风管路3方面进行优化布置,在井下关键区域布置挡风墙、风门、风窗以调节风量,延伸巷道加设局部通风机、风筒等。结合优化方案,利用Ventsim软件建立通风三维模型,对优化前后的井下临时通风系统进行通风网络解算,模拟结果表明,通过调节风量、改变风向等措施,井下通风条件明显好转,通风网络有效风量率由58.47 %增长至70.43 %。延伸巷道采用“主风机+局部接力”模式,有效解决−8 m、−28 m 分段西南部盘区长距离供风难题,掘进作业面供风量不低于4.7 m3/s,排尘风速不低于0.3 m/s,作业面的风量、风速指标满足安全生产要求,保障矿山持续稳健生产。

     

    Abstract: The ventilation system of a newly built mine adopts a single-wing diagonal ventilation mode, with air intake through a slope and air return through a vertical shaft, and the ventilation method is mechanical extraction. The underground infrastructure has formed 12 m, −8 m, −28 m, and −48 m sections, but the mine ventilation system has not yet been formed during the infrastructure period. With the advancement of each section project, the ventilation distance increases. To solve the problems existing in the underground temporary ventilation system, such as airflow short circuit, insufficient air supply at the working face, and low ventilation efficiency, the layout was optimized from three aspects: ventilation measure engineering, ventilation equipment, and ventilation pipelines. Windbreak walls, air doors, and air windows were arranged in key underground areas to regulate the air volume, and equipment such as local ventilators and air ducts was added to the extended roadways. Combined with the optimization scheme, a three-dimensional ventilation model was established using Ventsim software to solve the ventilation networks of the underground temporary ventilation system before and after optimization. The simulation results show that through measures such as adjusting the air volume and changing the wind direction, the underground ventilation conditions have improved significantly, and the effective air volume rate of the ventilation network increases from 58.47 % to 70.43 %. The extended roadways adopt the "main fan + local relay" mode, which effectively solves the long-distance air supply problem in the southwestern panel of the −8 m and −28 m sections. The air supply volume at the tunneling face is not less than 4.7 m3/s, and the dust-exhausting air velocity is not less than 0.3 m/s. The air volume and air velocity indicators at the working face meet the requirements of safe production, ensuring continuous and stable production of the mine.

     

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