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。一般部分为恒源煤矿矿1.2Mt/a新井设计,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-带区巷道布置;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。恒源煤矿位于安徽省淮北市濉溪县刘桥镇境内。西以省界与河南省永城市毗邻,东距濉溪县约10km,东北距淮北市约13km。矿井交通十分方便,濉溪县至永城市公路从矿区通过,可直接接通河南省和安徽省内公路网。矿井铁路专用线经濉溪站转接京沪、陇海和京九三大干线通往全国各地,
2、交通极为便利。矿井东东南浅部以土楼断层和刘桥一矿为界,西西北以省界与河南省永城市的新庄煤矿相接。平均走向长度为5.6 km,平均倾斜宽为5.0 km,平均倾角为7.13,水平面积为17.4 km2。矿井最大涌水量为683.40m3/h,正常涌水量为525.44 m3/h;煤质为烟煤;全矿井最大绝对瓦斯涌出量为7.866 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。矿井采用立井单水平开拓,采用中央并列式通风。一矿一面,采煤方法为长壁综采一次采全高。煤炭运输采用阻燃胶带,辅助运输采用无级绳绞车。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“三八”制。专
3、题部分题目是膏体充填开采原理与技术。翻译部分英文原文题目为:Spiling bolts and reinforced ribs of sprayed concrete replace concrete lining。 关键词:立井;带区;综采;中央并列式AbstractThis design includes of three parts: the general part, special subject part and translated part.The general part is a new preliminary design of Hengyuan mine that an
4、nual output is 1.2Mt . The design includes ten chapters: 1. Mine and mine geological features outlined; 2. Waida realm and reserves; 3. Mine system, design capacity and length of service; 4. Waida develop; 5. to prepare the way with the district roadway layout; 6. mining methods; 7. underground tran
5、sport; 8. mine hoist; 9. mine ventilation and security technologies; 10 mine the basic technical and economic indicators.Hengyuan Mine of Huaibei City, Anhui Province is located in the territory of Suixi County Liuqiao town. West Wing and Henan provincial boundaries in the adjacent city, west of Sui
6、xi County about 10km, north-east from the Huaibei City, about 13km. Mine the traffic is very convenient, Suixi County Highway to the city never adopted from the mining area can be directly connected with the Henan Province and Anhui Province Highway Network. Mine special railway line by the relay st
7、ation Suixi, the Beijing-Shanghai, Lianyungang and Beijing-Kowloon Route to three across the country, traffic is very convenient. Mine east-southeast of shallow faults and Liuqiao Tulou in a mine for the community, the West-Northwest boundaries with a new city in Henan Province Coal Mine never conne
8、cted. Average to a length of 5.6 km, the average tilt width 5.0 km,The average inclination of 7.13 degrees, the level of an area of 17.4 square kilometers. Water for the mines largest 683.40m3/h, the normal water Chung 525.44 m3/h; coal for bituminous coal; the entire mine gas emission in the absolu
9、te maximum for the 7.866 m3/min, low mine gas; coal seam is not spontaneous combustion, coal with an explosion risk.Mine use Shaft single the level of development, alongside the use of the central ventilation. Side of a mine, mining method for a fully mechanized longwall mining height. The use of fl
10、ame-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 38 structure.Special subject part is about Translated part, the original English text of the title: Spiling bolt
11、s and reinforced ribs of sprayed concrete replace concrete lining。 Key words: shaft; bands; fully mechanized mining; central parallel目 录一般部分11 矿区概述及井田地质特征21.1矿区概述21.1.1矿区地理位置21.1.2矿区气候条件21.1.3矿区的水文情况21.2井田地质特征21.2.1煤系地层31.2.2水文地质特征51.3煤层特征51.3.1可采煤层51.3.2 煤的特征51.3.3 其它有益矿产51.3.4 瓦斯,煤尘及自燃52 井田境界与储量52
12、.1井田境界52.2矿井储量计算52.2.1构造类型52.2.2矿井工业储量52.2.3矿井可采储量52.2.4工业广场煤柱53 矿井工作制度、设计生产能力及服务年限53.1矿井工作制度53.2矿井设计生产能力及服务年限54 井田开拓54.1井田开拓的基本问题54.1.2井筒形式、数目的确定54.1.3 工业场地的位置54.1.4 开采水平的确定54.1.5 矿井开拓方案比较54.2 矿井基本巷道54.2.1井筒54.2.3主要开拓巷道55 准备方式带区巷道布置55.1煤层地质特征55.1.1带区位置55.1.2带区煤层特征55.1.3煤层顶底板岩石构造情况55.1.4水文地质55.1.5地质
13、构造55.1.6地表情况55.2 带区巷道布置及生产系统55.2.1带区准备方式的确定55.2.2带区巷道布置55.2.3带区生产系统55.2.4带区内巷道掘进方法55.2.5带区生产能力及采出率55.3带区车场选型设计56 采煤方法56.1 采煤工艺方式56.1.1 采煤方法的选择56.1.2 回采工作面长度的确定56.1.5各工艺过程注意事项56.1.6工作面端头支护和超前支护56.2回采巷道布置56.2.1回采巷道布置方式56.2.2回采巷道参数57 井下运输57.1概述57.1.1矿井设计生产能力及工作制度57.1.2煤层及煤质57.2带区运输设备选择57.2.1设备选型原则:57.2
14、.2带区运输设备选型及能力验算57.3大巷运输设备选择57.3.1主运输大巷设备选择57.3.2辅助运输大巷设备选择58 矿井提升58.1矿井提升概述58.2主副井提升58.2.1主井提升58.2.2副井提升设备选型59 矿井通风及安全59.1矿井地质、开拓、开采概况59.1.1矿井地质概况59.1.2开拓方式59.1.3开采方法59.1.4变电所、充电硐室、火药库59.1.5工作制、人数59.2矿井通风系统的确定59.2.1矿井通风系统的基本要求59.2.2矿井通风方式的选择59.2.4带区通风系统的要求59.2.5带区通风方式的确定59.3矿井风量计算59.3.1通风容易时期和通风困难时期
15、采煤方案的确定59.3.2各用风地点的用风量和矿井总用风量59.3.3风量分配59.4矿井阻力计算59.4.1计算原则59.4.2计算矿井摩擦阻力和总阻力59.4.3两个时期的矿井总风阻和总等积孔59.5选择矿井通风设备59.5.1选择主要通风机59.5.2电动机选型59.6安全灾害的预防措施59.6.1预防瓦斯和煤尘爆炸的措施59.6.2预防井下火灾的措施59.6.3防水措施510 设计矿井基本技术经济指标5专题部分51 充填技术的发展历史与现状52 煤矿膏体充填研究现状53 膏体充填技术特点及其主要问题54 充填方法及其特点55 煤矿膏体充填工艺55.1材料准备55.2配料制浆55.3管道泵送55.4工作面充填56 膏体充填技术在煤矿应用的可行性57 结语5翻译部分5英文原文5中文译文5一 般 部
