摘要
晋华宫矿在生产中,形成河北、河南两大生产区域共"十进四回"的通风方式。日常生产中,虽然整体通风系统稳定、十个进风井均有服务区域,但由于风井数量较多,仅在风井管理上就投入大量的精力。且井田内可采储量逐步萎缩,可进行采、掘活动的煤层逐渐减少。少数煤层已多年处于残采供风状态,不仅占用了风量资源,而且需投入大量的人力、物力去进行日常管理和系统维护。为此,开展此项研究,旨在通过梳理矿井现状,分析相关区域尤其是残采盘区优化收缩及进风井口简化的可行性,并研究制定具体的实施方案。
jinghua palace mine in production, the formation of Hebei, Henan two major production areas, a total of "ten into four" ventilation.In daily production, although the overall ventilation system is stable and there are service areas for ten air wells, due to the large number of air wells, a lot of energy is invested in the management of wind wells only. In addition, the recoverable reserves in the well field gradually shrink,and the coal seams that can be mined and excavated gradually decrease. A few coal seams have been in a state of residual wind supply for many years. They not only occupy wind resources, but also invest a lot of manpower and material resources to carry out daily management and system maintenance. To this end, this study aims to analyze the feasibility of optimal shrinkage and simplification of inlet wellhead in relevant areas, especially in the residual mining areas, and to study and formulate specific implementation plans.
引文
[1]李培佳.平煤二矿通风系统优化研究[D];河南理工大学;2011年.
[2]王慧.矿井通风系统的可靠性分析[D];西安科技大学;2011年.
[3]姜周民.矿井通风系统优化设计探讨[J];中小企业管理与科技(下旬刊);2011年07期.
[4]程健维.矿井通风系统安全可靠性与预警机制及其动力学研究[D];中国矿业大学;2012年.
[5]颉占胜.关于煤矿矿井通风技术管理的思考[J];技术与市场;2011年04期.