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论文编号:CKZS010 论文字数:35690,页数:117 附CAD
摘 要
本设计的井田面积为12平方千米,年产量90万吨。井田内煤层赋存比较稳定,煤层倾角8-12°,平均煤厚4m,整体地质条件比较简单,沼气和二氧化碳含量相对较高,涌水量也不大。根据实际的地质资料情况进行井田开拓和准备方式的初步设计,该矿井决定采用三立井上下山开采,煤层采用采区上下山联合布置的开拓方式,设计采用综合机械化一次采全高回采工艺,倾斜长壁采煤法,用全部跨落法处理采空区。并对矿井运输、矿井提升、矿井排水和矿井通风等各个生产系统的设备选型计算,以及对矿井安全技术措施和环境保护提出要求,完成整个矿井的初步设计。矿井全部实现机械化,采用先进技术和借鉴已实现高产高效现代化矿井的经验,实现一矿一面高产高效矿井从而达到良好的经济效益和社会效益。
关键词:立井、倾斜长壁、一次采全高、综合机械化、高产高效
Abstract
These designed allotment area for 12 square kilometers,Yearly Output ninty trillion. Allotment intrinsically ocurrence of coal seam compare stabilize,coal seam pitch eight-twelty acid,average coal thick 4m,integrally nature condition compare simplicity, Both methane and carbon dioxide content relatively high, and neither do inflow of water no large either. On the basis of Preliminary Design,said shaft opt in adopt three vertical shaft fluctuate mountain exploitation,coal seam grouping band region fluctuate mountain co- disposal ''''mode of opening,design adopt comprehensive mechanization full-seam mining stopper art,incline longwall method,treat goaf with whole straddle alight law from actual geologic information instance proceed allotment exploit and stand-by mode. The Preliminary Design of the both both combine versus mine haul, shaft exaltation, shaft drain and ventilation of mines isopuant systemic equipment lectotype count,as well as versus shaft technical safety measures and environmental protection claim,complete wholly shaft. Both shaft whole realize mechanization,adopt advanced techniques and use for reference afterwards realize high yield highly active modernization shaft ''''experience,realize one mine not both high yield highly active shaft thereby run up to favorable economic benefit and social benefit.
Keyword: Vertical shaft, incline length wall, full-seam mining, comprehensive mechanization, high yield highly active
目 录
目 录 1
1 矿区概况及井田地质特性 2
1-1 矿区概况 2
1.2 井田地质特征 6
1.3 水文地质 10
1.4 其它开采技术条件: 13
2 矿井储量、年产量及年限 15
2.1 井田境界 15
2.2 井田储量 15
2.3 矿井年储量及服务年限 20
3 井田开拓 21
3.1概述 21
3.2 井田开拓 21
3.3 井筒特征 27
3.4 井底车场 30
3.5 开采顺序及采区回采工作面的配置 41
3.6 井巷工程量和建井周期 44
4 采煤方法 47
4.1 采煤方法的选择 47
4.2 采区巷道布置及生产系统 47
4.3 回采工艺设计 54
5 矿井运输、提升及排水 60
5.1 矿井运输 60
5.2 矿井提升 68
5.3 矿井排水 81
6 矿井通风与安全技术措施 90
6.1 矿井通风系统的选择 90
6.2 风量机算及风量分配 91
6.3 全矿通风阻力计算 95
6.4 扇风机选型 100
6.5 矿井安全技术措施 103
7 矿山环保 106
7.1 矿山污染源概述 106
7.2 矿山污染源的防治 107
结论 110
致谢 112
参考文献 113
