超千米改装后立井注浆辅助系统优化与应用
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摘要
基于立井井筒掘砌过程中,将通过多层表土砂层含水层及基岩段砂岩含水层,经常伴有井壁注浆封堵水施工。重点介绍了在装备后的井筒进行防治水注浆施工前,优化机电辅助系统并进行改造,合理解决注浆用操作平台,既能实现立井上下人员正常提升互不影响,又能满足井壁注浆施工的需要,达到安全生产的目的。实践证明:该设计方案简单、经济、实用、安全可靠。
In the shaft excavation process, well wall grouting, water sealing and plugging will be adopted in process of passing multi-layer surface sand aquifer and the sandstone aquifer of bedrock segment. This paper mainly introduces how to optimize the electromechanical auxiliary system and transform it before preventing and controlling water grouting in the wellbore after equipment construction, and reasonably solve the operation platform for grouting, which can not only realize the normal lifting of personnel above and below the shaft, but also meet the need of grouting in the shaft to achieve the goal of safe production. It is proved that the design is simple, economical, practical, safe and reliable.
In the shaft excavation process, well wall grouting, water sealing and plugging will be adopted in process of passing multi-layer surface sand aquifer and the sandstone aquifer of bedrock segment. This paper mainly introduces how to optimize the electromechanical auxiliary system and transform it before preventing and controlling water grouting in the wellbore after equipment construction, and reasonably solve the operation platform for grouting, which can not only realize the normal lifting of personnel above and below the shaft, but also meet the need of grouting in the shaft to achieve the goal of safe production. It is proved that the design is simple, economical, practical, safe and reliable.
引文
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[2]欧涛,许喜雷.超千米立井井筒壁厚注浆工艺[J].山东煤炭科技,2012(2):84-85.
[3]王军勇.分段联合注浆技术在立井井筒通过平顶山砂岩特厚含水层施工中的应用[J].建井技术,2010,31(1):19-21.
[4]丁日晓.千米立井综合治水技术的应用[J].煤炭科学技术,2000(9):14-16.
[5]杨晓玲,李国栋,吕振铎.普通注浆法在超千米立井筒壁后注浆中的应用[J].中州煤炭,2011(3):46-47.
[6]王建峰,刘晓强.普通注浆法在立井过砂岩强含水层中的应用[J].能源与环保,2016(4):79-82.
[7]汪莹,宋爱东,杨振.矿山立井临时改绞双系统提升设计优化[J].建井技术,2013(1):45-47.
[8]王念彬,王彦文,高彦.新型矿井低压电网选择性漏电保护装置研究[J].煤矿机电,2009(1):27-29.
[9]闫家华.千米立井主供电系统技术设计与应用[J].煤矿机械,2006,27(1):18-19.
[10]贾希林,孙清华,侯胜龙,等.立井井筒凿井设备布置优化设计[J].建井技术,2005(1):36-38.
[11]李宏岩.立井提升罐笼BF型防坠器试验方法[J].水力采煤与管道运输,2011(2):17-19.
[12]王帮俊,施云峰,冯旭东.深立井井筒凿井设备选型与布置专家决策支持系统的设计与应用[J].建井技术,2010(1):43-44.
[13]姜玉松,汤如山.立井施工设备选择专家系统的设计[J].有色金属(矿山部分),2003(6):123-125.
[14]韩猛,崔汉涛.浅谈超千米立井井筒排水管路的设计[J].科技与企业,2014(14):248.
[15]李倩,李力伟.煤矿立井排水管路布置研究[J].科技资讯,2009(17):144.
[16]闫家华.千米立井排水管路设计[J].建井技术,2003(1):11.
[17]张晓四,姚贵英.基于系统工程的立井井筒排水管路优化设计[J].煤炭工程,2009,18(9):15-17.
[18]王文海,张敬恩.立井井筒排水管路设计和安装工艺探讨[J].中州煤炭,2000(4):17.
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