摘要
针对气动式钻机在煤矿巷道底板排渣效率低、成孔困难的问题,基于两相流态变化进行了气-液-固多相耦合排渣机理分析,并从钻渣运移动力路径的角度对成孔困难原因进行阐释。结果表明:在底板水影响下,孔内先后经历“静态-泡状流-段塞流-环空雾流”等两相流态,约75%的钻渣在泡状流与段塞流阶段以较快速率排出,剩余钻渣需在环空雾流阶段以较低效率缓慢排出;底板水侵蚀引发的孔口外扩是成孔困难的主要原因。结合益新煤矿-250机道石门底板锚固工程实际,提出了“套管束流”排渣法并优化了原钻孔工艺,现场应用效果良好。
In view of low slag discharge efficiency and hole-forming difficulty problem of pneumatic drilling machine in coal mine roadway floor,multiphase flow pattern change in drill-hole during slag discharge process has been analyzed based on two-phase flow pattern change.Meanwhile,reasons that cause hole-forming difficulty have been analyzed from the point of moving force path of drilling slag.The results show that two-phase pattern change,such as“static-bubble flow-slug flow-annular fog flow”were successively experienced in the hole,about 75%of drilling slag is discharged at a faster rate during the bubble and slug flow stages,while the remaining drilling slag should be discharged slowly in the stage of annular fog flow with low efficiency;external expansion of drill-hole caused by water erosion is the main factor leading to drilling failure.Based on the engineering practice of-250 cross-hole in Yixin Coal Mine,the“casing beam”deslagging method is proposed correspondingly and the original drilling technique is optimized,and the field application effect is good.
作者
石蒙
蒋威
郝登云
无
SHI Meng;JIANG Wei;HAO Dengyun;无(Coal Mining&Designing Department,Tiandi Science&Technology Co.,Ltd.,Beijing 100013,China;Coal Mining Research Branch,China Coal Research Institute,Beijing 100013,China;School of Energy and Mining,China University of Mining and Technology(Beijing),Beijing 100083,China)
出处
《煤矿安全》
CAS
北大核心
2019年第12期110-113,共4页
Safety in Coal Mines
基金
中国煤炭科工集团有限公司科技创新创业资金专项资助项目(2018-TD-MS027)
国家重点研发计划资助项目(2017YFC0804305)
关键词
气动式钻机
巷道底板
锚固孔
排渣机理
多相流理论
pneumatic drilling machine
roadway floor
anchor hole
deslagging mechanism
multiphase flow theory
