|
|
|
| Study on optimization of underground ventilation system in Huasheng Hufeng Coal Industry |
| Xing Yongsheng |
| Datong Coal Mine Group Huasheng Hufeng Coal Industry Co., Ltd..Yuncheng 043300, China |
|
|
|
|
Abstract Aiming at the problem that the ventilation air volume in someareas of Hufeng Coal Mine in Huasheng is low and the air quality isobviously lower than the qualified standard, the ventilation system isoptimized and transformed. The specific problems existing in the currentventilation system are determined by parameter determination. In view ofthe west wing air lane, the transformation scheme of setting the return airlane at +227 ~ +315 m or +227~284 m is proposed. Two schemes foradjusting the return air inclined lane are proposed for the east wing totalreturn air lane. The best transformation scheme is determined aftercomparing the engineering quantity and actual effect. The monitoring ofthe effect of the ventilation system after the transformation shows that theoptimization effect of the ventilation system is obvious.
|
|
|
|
|
|
| [ 1 ] 苏鹏祥. 煤矿矿井通风技术及通风系统优化策略分析[ J ]. 矿业装备,2022( 1 ):114 - 115.
[ 2 ] 尹建丰. 优化盘区通风系统并联回风降低通风阻力探讨[ J ]. 山东煤炭科技,2022,40( 2 ):117 - 119.
[ 3 ] 姚文宇. 张双楼煤矿通风系统模拟优化研究[ J ]. 煤炭科技,2022,43( 1 ):70 - 73.
[ 4 ] 黄贤锋. 运河煤矿通风系统改造优化设计及应用[ J ]. 煤矿现代化,2022,31( 2 ):104 - 107.
[ 5 ] 芮国相. 察哈素煤矿管控一体化智能通风系统的构建研究[ J ]. 中国设备工程,2022( 2 ):205 - 206.
[ 6 ] 刘通海. 基于灰色综合评价模型的矿井通风系统可靠性评价[ J ]. 能源与节能,2021( 1 ):195 - 197.
[ 7 ] 方 明. 煤矿井下瓦斯治理方案及通风系统优化探析[ J ]. 矿业装备,2021( 1 ):78 - 79.
[ 8 ] 闫尚彬,李 静. 大海则煤矿智能通风系统可视化管控平台搭建及应用[ J ]. 煤矿现代化,2021,30( 5 ):179 - 181,178.
[ 9 ] 邓禾苗,刘 杰,张 悦,等. 基于AHP-TOPSIS法的高原矿井通风系统方案优选[ J ]. 化工矿物与加工,2021,50( 9 ):1 - 6.
[ 10 ] 彭 斌,肖利民. 深部开采和残矿回采复杂条件下通风系统优化研究[ J ]. 采矿技术,2021,21( 6 ):116 - 119. |
|
|
|
