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。一般部分为城郊煤矿2.4Mt/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。城郊井田位于河南省永城市境内,覆盖城关乡、城厢乡的全部及侯岭、双桥、十八里、将口乡的一部分。井田平均走向长度8.1km,平均倾向长度5.57km,井田面积约45.12km2。煤层倾角平均为6,倾角变化较小,可采煤层为2煤和3煤,设计煤层为3煤,平均厚度4.98m。矿
2、井工业储量310.22Mt,可采储量214.19Mt,设计服务年限63.7a。矿井正常涌水量180m3/h,最大涌水量230m3/h。矿井相对瓦斯涌出量0.5 m3/min,属低瓦斯矿井。确定开拓方案为立井两水平开拓(岩巷),立井延伸,设两水平,一水平标高-550m,二水平标高-750m。整个井田划分为6个带区。采用中央并列式通风。矿井采用带区式准备方式,工作面设计长度230m。采用综合机械化一次采全高工艺。矿井年工作日为330d,昼夜净提升时间为18h。矿井采用“四六”制工作制度,三班生产,一班检修。生产班每班完成2个采煤循环。循环进尺为0.8m,日产量7312.24Mt。矿井煤炭采用胶带输
3、送机运输,辅助运输采用蓄电池式电机车牵引固定箱式矿车。主井采用两对16t侧卸式箕斗提煤,副井采用一对1.5t矿车双层四车加宽罐笼运送物料和升降人员。专题部分题目为:矿用充填材料与充填技术发展。主要综述了近年来煤矿充填开采中应用的充填材料及充填技术。 翻译部分主要内容是热多孔双重孔隙介质中的井壁稳定性分析。英文题目是:Borehole stability analysis in a thermo poro-elastic dual-porosity medium。关键词:立井;两水平;带区;综合机械化一次采全高;中央并列式通风ABSTRACTThis design includes three
4、parts: the general design, the monographic study and the translation.The general design is about A 1.2 Mt/a New Underground Mine Design Of Chengjiao Coal Mine. The design includes ten chapters: 1. Mine overview and mine field geological features; 2. The mine field boundary and the reserves; 3. Mine
5、system of work, design production capacity and service life; 4. Mine field extension; 5. Preparation-with the strip district roadway layout; 6. Mining methods; 7. Underground transport; 8. Mine hoist; 9. Mine ventilation and safety technology; 10. Mine basic technical and economic indicators.Chengji
6、ao Minefield is located the territory of Yongcheng city,covering full of Chengguan Township, Chengxiang Township,and part of Houling Township,Shuangqiao Township,Shi Bali Township,Jiangkou Township. Its about 8.1 km on the strike and 5.57 km on the dip, with the 45.12 km2 total area. There are 2 min
7、able coal seam. The main aquifer coal seam is 3 coal seam with an average thickness of 4.98 m, and the average dip of 3 coal seam is 6. The proved reserves of this coal mine are 310.22 Mt and the minable reserves are 214.19 Mt, with a mine life of 63.7 a. The normal mine inflow is 180 m3/h and the m
8、aximum mine inflow is 230 m3/h. The mine relative gas emission quantity is 0.5 m3/t, and the absolute gas emission quantity is 0.5m3/min. Thus, it is a low gas mine. Determine program is vertical shaft development with two mining levels, and the tunnel is set in the rock seam; The first mining level
9、 is -550 m, the second mining level is -750m . The mine field is divided into six mining strip district. The type of mine ventilation is the centralized juxtapose ventilation . Designed first mining district makes use of the method of the mining strip district preparation. The design length of worki
10、ng face is 230 m, which uses fully mechanized mining overall height in one times technology. The working days in one year are 330. Everyday it takes 18 hours in lifting the coal. The operation mode in the mine is “four-six” with three teams mining and the other overhauling. Every mining team makes t
11、wo working cycle. So everyday there are 6 working cycles. The advance of a working cycle is 0.8 m, and the quantity of 7312.24 ton coal is maked everyday.Main roadway makes use of belt conveyor to transport coal resource, and mine car to be assistant transport. The main shaft uses two double 16 t sk
12、ips to lift coal and the auxiliary shaft uses a twins wide 1.5 t four-car double-deck cage to lift material and personnel transportation.The monographic study entitled “Mine filling material and filling technology development.”. Reviewed the applications in recent years in the mining of coal filling
13、 the filling material and filling technology.The translated title is “Borehole stability analysis in a thermo poro-elastic dual-porosity medium”.Keywords: shaft; two mining levels; strip district; fully mechanized mining overall height in one times technology; centralized juxtapose ventilation目 录1矿区
14、概述及井田地质特征11.1 矿区概述11.1.1矿区地理位置与交通11.1.2地形地貌11.1.3主要河流11.2 井田地质特征21.2.1地层21.2.2井田地质构造41.2.3水文地质特征41.3 煤层特征41.3.1煤层41.3.2煤质62 井田境界与储量72.1 井田境界72.2 矿井工业储量计算72.2.1储量计算依据72.2.2矿井工业储量72.2.3矿井工业储量计算92.3 矿井可采储量102.3.1安全煤柱留设原则102.3.2矿井永久保护煤柱损失量102.3.3矿井可采储量123 矿井工作制度、设计生产能力及服务年限133.1矿井工作制度133.2 矿井设计生产能力及服务年限
15、133.2.1矿井设计生产能力及服务年限确定依据133.2.2矿设计生产能力133.2.3矿井服务年限133.2.4井型校核144 井田开拓164.1 井田开拓的基本问题164.1.1确定井筒形式、数目、位置及坐标164.1.2工业场地的位置184.1.3开采水平的确定184.1.4运输大巷和井底车场的布置184.1.5矿井开拓延伸方案184.1.6方案比较194.2 矿井基本巷道304.2.1井筒304.2.2井底车场及硐室344.2.3主要开拓巷道364.2.4巷道支护395 准备方式带区巷道布置405.1 煤层地质特征405.1.1带区位置405.1.2带区煤层特征405.1.3煤层顶底板岩石构造情况405.1.4水文地质特征405.1.5地质构造405.1.6地表情况405.2 带区巷道布置及生产系统405.2.1带区准备方式的确定405.2.2带区位置及范围415.2.3带区巷道布置415.2.4带区生产系统435.2.5带区内巷道掘进435.2.6带区生产能力及采出率435.3 带区车场选型计算455.3.1带区车场的形式455.3
