1、第9页摘 要一般部分针对岱庄煤矿进行了井型为1.2 Mt/a的新井设计。岱庄煤矿位于山东省济宁市境内。煤层厚度平均2.9m,平均倾角都为3。井田工业储量为160.23 Mt,可采储量124.5 Mt,矿井服务年限为79.8a。矿井正常涌水量为378 m3/h,最大涌水量为400 m3/h;矿井属低瓦斯矿井。根据井田地质条件,设计采用立井单水平开拓方式,带区式布置方式,共划分为5个带区,水平标高-500 m。轨道大巷、胶带机大巷皆为岩石大巷,布置在煤层底板岩层中。一带区共划分12个分带工作面,并进行了运煤、通风、运料、排矸、供电系统设计。带区服务年限16年。对工作面进行了采煤工艺设计。该工作面煤
2、层平均厚度为2.9m,平均倾角3,直接顶为粘土砂岩,老顶为细砂岩。工作面采用长壁综采一次采全高的采煤方法。采用双滚筒采煤机割煤,往返一次割两刀。采用“三八制”工作制度,截深0.8 m,每天六个循环,循环进尺4.8 m,月推进度144 m。大巷采用胶带输送机运煤,辅助运输采用蓄电池式电机车牵引固定箱式矿车。主井采用两套带平衡锤的16 t箕斗提煤,副井采用一对1.5 t矿车双层四车宽罐笼运料和升降人员。专题部分题目是厚煤层分层开采及巷道合理位置确定模拟分析,经过查阅大量资料和结合实验所得结论,认为本文所提出的确定厚煤层下分层煤层回采巷道合理位置的方法是可行的,研究结果对类似条件下巷道合理布置具有一
3、定的指导意义。翻译部分题目为Technology for Tomorrow and Equipment Selection for India Coal Mines。关键词:岱庄煤矿;立井单水平;带区布置;综采大采高;中央边界式;厚煤层;分层开采; ABSTRACTThe general design is about a 1.2Mt/a new underground mine design of Daizhuang coal mine. Daizhuang coal mine is located in Jining, Shandong province. The minable coal
4、 seam are 2.9m ,the average dip is 3. The proved reserves of this coal mine are 311.4 Mt and the minable reserves are 124.5 Mt, with a mine life of79.8 a. The normal mine inflow is 378 m3/h and the maximum mine inflow is 400 m3/h. The mine can be recognized as low gas mine. Based on the geological c
5、ondition of the mine, this design uses vertical shaft single-level development method, both district and strip preparation ,which divided into 5 totally, The level is at -500 m .track roadway, belt conveyor roadway and return airway are all rock roadways, arranged in the floor rock of coal seam. Tak
6、ing into account of the high gas emission, mine ventilation method use central boundary ventilation in earlier stage and combined ventilation, excaves bottom gas drainage roadway before mining to relief gas pressure in advance.The design apply strip preparation against the first band of One which di
7、vided into 12 stirps totally, and conducted coal conveyance, ventilation, gangue conveyance and electricity designing. Its life is 16 a.The design conducted coal mining technology design against the working face. The coal seam average thickness of this working face is 2.9 m and the average dip is 3,
8、 the immediate roof is day sandstone and the main roof is sand stone. The working face apply fully-mechanized long-wall full-height coal caving method, and using double drum shearer cutting coal which cutting twice each working cycle. “Three-Eight” working system has been used in this design and the
9、 depth-web is 0.8 m with six working cycles per day, and the advance of working cycles is 4.8 m per day and 144 m per month.Main roadway makes use of belt conveyor to transport coal resource, and battery locomotive to be assistant transport. The main shaft uses double 16 t skips to lift coal with a
10、balance hammer and the auxiliary shaft uses a twins wide 1.5t four-car double-deck cage to lift material and personnel transportation.Special section titledRoadway seam slice mining and simulation analysis to determine a reasonable position, having access to large amounts of data and binding experim
11、ents concluded that the determination of the proposed coal seam roadway under the tiered approach is reasonable and feasible location the findings of a similar arrangement under the roadway has some reasonable guidance.Translation of part of the topicTechnology for Tomorrow and Equipment Selection f
12、or India Coal Mines.Keywords:Daizhuang coal mine; vertical shaft single-level; band mode; large mining height; central boundary ventilation; Thick coal seam; slice mining;目 录1 矿区概述及井田地质特征11.1矿区概述11.1.1交通位置11.1.2地形、地貌11.1.3河流及水体11.1.4气象地震21.1.5矿井四邻关系21.2井田地质特征31.2.1井田地质构造31.2.2 水文地质31.3 煤层特征41.3.1 煤层
13、41.3.2 煤层顶底板41.3.3 煤的特征72 井田境界及储量82.1 井田境界82.1.1 井田境界82.1.2 开采界限82.2 矿井工业储量82.3 矿井可采储量92.3.1 安全煤柱留设原则92.3.2矿井永久保护煤柱损失量102.3.2 矿井可采储量:113 矿井工作制度、设计生产能力及服务年限123.1 矿井工作制度123.2 矿井设计生产能力及服务年限123.2.1矿井生产能力123.2.2矿井服务年限124 井 田 开 拓144.1井田开拓的基本问题144.1.1确定井筒形式、数目、位置及坐标144.1.2工业场地的位置154.1.3主要开拓巷道154.2 开拓方案比较15
14、4.2.1 提出开拓方案154.2.2 进行经济比较174.3矿井基本巷道204.3.1井筒204.3.2井底车场及硐室244.3.3大巷264.3.4 巷道支护315 准备方式带区巷道布置325.1煤层地质特征325.1.1采区位置325.1.2采区煤层特征325.1.3煤层顶底板岩石构造情况325.1.4水文地质325.1.5地质构造325.1.6地表情况325.2带区巷道布置及生产系统325.2.1 带区准备方式的确定325.2.2带区巷道布置325.2.3带区生产系统335.2.4带区生产能力及采出率336 采煤方法356.1采煤工艺方式356.1.1 带区煤层特征及地质条件356.1
15、.2确定采煤方法356.1.3回采工作面参数366.1.4回采工作面采煤机、刮板输送机选型376.1.5采煤工作面支护方式396.1.6端头支护及超前支护方式416.1.7各工艺过程注意事项426.1.8 采煤工作面正规循环作业436.2 首采工作面回采巷道布置456.2.1回采巷道布置方式456.2.2回采巷道参数457 井下运输517.1概述517.1.1井下运输设计的原始条件和数据517.1.2运输距离和货载量517.1.3矿井运输系统527.2带区运输设备选择527.2.1设备选型原则527.2.2带区设备的选型527.2.3带区运输能力验算547.3大巷运输设备选择558 矿井提升578.1矿井提升概述578.2主井提升578.2.1箕斗578.2.2提升机578.2.3钢丝绳技术特征588.2.4提升能力验算588.3副井提升609 矿井通风及安全629.1矿井通风系统的选择629.1.1矿井通风系统的基本要求629.1.2矿井通风系统的确定629.1.3采区通风系统的确定63
