综掘工作面混合式风流调控下的粉尘沉降研究  被引量：1

作　　者：龚晓燕[1] 王天舒 陈龙[1] 裴晓泽 李相斌 朱倩丽 牛虎明 GONG Xiaoyan;WANG Tianshu;CHEN Long;PEI Xiaoze;LI Xiangbin;ZHU Qianli;NIU Huming(College of Mechanical Engineering,Xi'an University of Science and Technology,Xi'an 710054,China;Shaanxi Shanbei Mining Co.,Ltd.,Yulin 719000,China)

机构地区：[1]西安科技大学机械工程学院,陕西西安710054 [2]陕西陕北矿业有限责任公司,陕西榆林719000

出　　处：《工矿自动化》2024年第2期106-115,共10页Journal Of Mine Automation

基　　金：国家自然科学基金面上资助项目(52374226);陕西省自然科学基础研究计划-企业陕煤联合基金资助项目(2021JLM-01)。

摘　　要：煤矿掘进过程中粉尘聚集严重,目前针对综掘工作面混合式风流调控下粉尘沉降规律及优化的研究还不够深入。基于混合式风流调控系统,依托陕煤集团神木柠条塔矿业有限公司综掘工作面,分析了压风口距工作面距离、压风口右偏角度、压风口口径、抽风口距工作面距离和压抽比等混合式风流调控参数对粉尘沉降规律的影响:随着压风口距工作面距离增加,司机处和回风侧行人呼吸带截面大颗粒粉尘占比先增后减再增,小颗粒粉尘占比增加;随着压风口右偏角度增加,司机处和回风侧行人呼吸带截面大颗粒粉尘占比变化明显;随着压风口口径增加,司机处截面小颗粒粉尘占比先增后减再增,回风侧行人呼吸带截面大颗粒粉尘占比先增后减;随着抽风口距工作面距离增加,司机处截面大颗粒粉尘占比先增后减,小颗粒粉尘占比先增后减再增,回风侧行人呼吸带截面粉尘粒径分布变化不大;随着压抽比增大,司机处和回风侧行人呼吸带截面小颗粒粉尘占比减小。以上述风流调控各参数为自变量,回风侧行人呼吸带全尘平均浓度和司机处呼尘平均浓度最低为优化目标,建立了粉尘沉降优化回归模型,利用粒子群优化算法求解模型,得到最优风流调控方案:压风口距工作面距离为8.9 m,压风口右偏角度为14.8°,压风口口径为0.9 m,抽风口距工作面距离为4.3 m,压抽比为1.1。搭建了风流调控下粉尘沉降实验平台,实验结果表明:测试值与粉尘沉降优化回归模型的模拟值误差在13%以内,验证了模型的准确性;优化后粒径为71~100μm的粉尘受风流调控参数影响明显,沉降在掘进机前方;优化后回风侧行人呼吸带全尘平均浓度和司机处呼尘平均浓度分别降低了47.4%和42.4%,降尘效果明显。Dust accumulation is severe during coal mine excavation.Currently,research on the dust settlement law and optimization under mixed air flow control in fully mechanized excavation faces is not in-depth enough.Based on a hybrid air flow control system and relying on the fully mechanized excavation face of Shaanxi Coal Group Shenmu Ningtiaota Mining Co.,Ltd.,the influence of mixed air flow control parameters such as the distance from the pressure air outlet to the working face,the right angle of the pressure air outlet,the pressure air outlet diameter,the distance from the extraction air outlet to the working face,and the pressure extraction ratio on the dust settlement law is analyzed.As the distance between the pressure air outlet and the working face increases,the proportion of large particle dust in the cross-section of the personnel breathing zone on the return air sides and the driver's location first increases,then decreases,and then increases again.The proportion of small particle dust increases.As the right deviation angle of the air inlet increases,the proportion of large particle dust in the personnel breathing zone section on the return air sides and the driver's location changes significantly.As the diameter of the air inlet increases,the proportion of small particle dust in the driver's location section first increases,then decreases,and then increases again.The proportion of large particle dust in the personnel breathing zone section on the return air side first increases and then decreases.As the distance between the extraction air outlet and the working face increases,the proportion of large particle dust at the driver's location section first increases and then decreases.The proportion of small particle dust first increases and then decreases and then increases again.The particle size distribution of dust at the personnel breathing zone section on the return air side does not change much.As the pressure-pumping ratio increases,the proportion of small particle dust in the crosssection of the personn

关 键 词：综掘工作面 混合式通风 风流调控 粉尘沉降 粉尘浓度 

分 类 号：TD714.4[矿业工程—矿井通风与安全]