1、摘 要本设计包括三个部分:一般部分、专题部分和翻译部分。一般部分为新源矿2.4Mt/a新井初步设计,共分10章:1.矿区概述及井田地质特征;2.井田境界和储量;3.矿井工作制度、设计生产能力及服务年限;4.井田开拓;5.准备方式-采区巷道布置;6.采煤方法;7.井下运输;8.矿井提升;9.矿井通风与安全技术;10.矿井基本技术经济指标。新源矿新源煤矿位于山西省沁源县西南部,隶属于李元镇管辖。矿井工业场地位于山西省沁源县西部李元镇附近,距沁源县城约17km。沁(源)洪(洞)公路从井田北部通过,向东17km至沁源县城接汾(阳)屯(留)省级公路及沁(沁源)沁(沁县)公路,煤矿距太焦线沁县火车站76k
2、m,距309国道张店镇 54km , 距南同蒲线介休市100km、距平遥县城105km,向西南经古县约75km旧公路可至洪洞县与大(同)运(城)高速公路或南同蒲洪洞火车站接运,交通条件比较方便。平均走向长度为5.82km,平均倾斜宽为3.98 km,平均倾角为5.4度,井田水平宽度为1 km,水平面积为17.88平方公里。矿井最大涌水量为120m3/时,正常涌水量为60 m3/时;煤质为焦煤;全矿井最大绝对瓦斯涌出量为7.5 m3/min,属低瓦斯矿井;煤层属不自燃发火煤层,煤层具有爆炸危险性。矿井采用双立井单水平开拓,采用两翼对角式通风。一矿一面,采煤方法为长壁综采放顶煤开采。煤炭运输采用胶
3、带运输,辅助运输采用无极绳绞车。矿井年工作日为330 d,每天净提升时间16 h。矿井工作制度为“四六”制。专题部分题目是大断面煤巷围岩稳定控制技术。翻译部分是一篇关于瓦斯在钻孔中的运动规律,英文原文题目为: Methane moving law with long gas extraction holes in goaf关键词:立井;采区;综采;两翼对角式式dAbstract There are three parts in this design, including the general part, the special subject part and the translatio
4、n part.The general part is about the new preliminary design of XinYuan mine of which the annual output is 1.5Mt . The part can be divided into ten chapters: 1. an overview of mining area and its geological features; 2. Minefield boundary and reserves; 3. Mine working system, design production capaci
5、ty and length of service; 4. Mine development ; 5. methods of preparation the roadway layout of mining area; 6. methods of mining; 7. underground transportation; 8. mine lift; 9. mine ventilation and security technology; 10. the basic technical and economic index in mine.The highway between Qinyuan
6、and Hongdong goes through the north of well field; it wides 17km to the east and reaches two highways, one between Fenyang and Tunliu, the other between Qinyuan and Qinxian in Qinyuan County. The distance between this mine and Qinxian railway station, a station on the railway between Taiyuan and Jia
7、ozuo, is 76km ; 54km from this mine to Zhangdian Town on 309 Road ; 100km to Xiujie City; 105km to Pingyao County; to the southwest after 75km it reaches the highway between Datong and Yuncheng and the south Tongpuhongdong railway station, so the transportation is convenient. The average strike leng
8、th is 5.82 km. The average tilt width is 3.98 km. The average angle is 5.4 degrees. The horizontal width of field well is 1km. The horizontal area is 17.88 square kilometers. The maximum gushing water of mine is 120m3/, the normal discharge is 60 m3/; the coal is coking coal mine; the maximum absolu
9、te gas emission quantity is 7.5 m3/min, which belongs to low gas mine; coal seam is not spontaneous combustion coal, which has the explosion risk.Mine uses double Shaft single the level of development, alongside the use of the central ventilation. Side of a mine, mining method for a fully mechanized
10、 longwall mining height. The use of flame-retardant tape transport of coal to support the use of non-class transport winch rope.Mine is working days for 330 days, the net every day to enhance the time 16 hours. Mine system is 46 structure.Special subject part is about large mining ore fully mechaniz
11、ed mining face high pressure behavior and control characteristics.Translated part is numerical simulation of coal floor fault activation influenced by mining, the original English text of the title: Numerical Simulation of Coal Floor Fault Activation Influenced by Mining.Key words: shaft; up-dip and
12、 down-dip minging; fully mechanized mining; diagonal ventilation of both wings. 目 录一般部分1 矿区概述及井田地质特征11.1 矿区概述11.1.1 矿区地理位置11.1.2 地形地貌11.1.3 河流水系11.1.4 气象及地震11.1.5 水源11.1.6 电源11.2 井田地质特征31.2.1 地质构造31.2.2 水文地质特征61.3 煤层特征71.3.1 含煤性71.3.2可采煤层81.3.3 煤质81.3.4瓦斯、煤尘爆炸性、煤的自燃倾向性、煤和瓦斯突出92 井田境界和储量112.1 井田境界及储量1
13、12.1.1 井田境界112.1.2 储量112.2矿井工业储量122.3 矿井可采储量132.4工业广场煤柱133 矿井工作制度、设计生产能力及服务年限153.1 矿井工作制度153.2 矿井设计生产能力及服务年限154 井田开拓174.1井田开拓的基本问题174.1.1井筒形式、数目的确定174.1.2 井筒位置的确定采(带)区划分194.1.3主、副井井筒位置的选择194.1.4工业广场的位置、形状和面积的确定204.1.5开拓方案及其比较204.2 矿井基本巷道254.2.1井筒254.2.2主要开拓巷道285 准备方式采区巷道布置325.1 煤层的地质特征325.1.1采区位置325
14、.1.2采区煤层特征325.1.3地表情况325.2 采区巷道布置及生产系统335.2.1确定采区巷道布置及生产系统的原则335.2.2确定采区巷道布置335.2.3采区巷道布置参数确定335.2.4采煤方法及工作面长度的确定335.2.5 采区巷道的联络方式345.2.6确定采区各种巷道的尺寸、支护方式及通风方式345.2.7采区生产系统345.2.8采区内巷道掘进方法355.2.9采区生产能力及采出率355.3采区车场选型设计366 采煤方法386.1采煤工艺方式386.1.1采区煤层特征及地质条件386.1.2 煤质386.1.3确定采煤工艺方式及工作面长度396.1.4回采工艺及设备4
15、06.1.5回采工作面支护方式446.1.6端头支护及超前支护方式466.1.7各工艺过程注意事项476.1.8 劳动组织和循环作业图表486.1.9回采工作面正规循环作业516.2回采巷道布置536.2.1回采巷道布置方式536.2.2回采巷道参数547 井下运输567.1概述567.1.1井下运输的原始条件和数据567.1.2煤层及煤质567.1.3井下运输系统567.2煤炭运输方式和设备选择577.2.1设备选型原则:577.2.2采区运输设备选型及能力验算577.3辅助运输方式和设备选择587.3.1选择电机车587.3.2设备选择598 矿井提升608.1矿井提升的原始数据和地质条件608.2主副井提升608.2.1主井提升608.2.2副井提升629 矿井通风及安全649.1矿井通风系统选择649.1.1矿井概况649.1.2矿井通风系统的基本要求649.1.3矿井通风方式的确定649.1.4 主要通风机工作方式选择659.1.5 采区通风系统的要求669.1.6 工作面通风方式的选
