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。一般部分共包括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。一般部分:为郭家河煤矿7.0Mt/a新井设计。郭家河煤矿位于陕西省宝鸡市,交通便利。井田走向(东西)长约14.94 km,倾向(南北)长约7.93 km,井田总面积为88.6km2。主采煤层为三煤,倾角06,平均5。煤层平均厚度为8.5 m。井田地质条件较为简单。井田工业储量为1129Mt,矿井可
2、采储量803.38Mt。矿井服务年限为79.6a,涌水量不大,矿井正常涌水量为1039.43 m3/h,最大涌水量为1351.26 m3/h。矿井相对瓦斯涌出量为1.29 m3/t,为低瓦斯矿井。根据井田地质条件,提出四个技术上可行的开拓方案。方案一:立井单水平岩巷开拓;方案二:立井单水平煤巷开拓;方案三:主斜副立单水平岩巷开拓;方案四:主斜副立单水平煤巷开拓。通过粗略和详细技术经济比较,最终确定方案一为最优方案。水平标高750m,整个井田划分为5个带区。矿井采用中央并列式通风。矿井首采区采用带区式准备方式,工作面设计长度250m,采用综合机械化放顶煤采煤工艺。矿井年工作日为330d,昼夜净提
3、升时间为16h。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3个采煤循环。循环进尺为0.80m,日产量为21212,1t。专题部分题目为浅析巷道围岩控制方法之锚注支护翻译部分题目为基于一氧化碳指标煤炭自燃倾向性试验研究关键词:立井单水平岩巷开拓;带区,中央并列式通风,综采放顶煤,ABSTRACTThe design includes three parts: the general part of the thematic part and translation partThis general part includes ten chapters: 1.An outlin
4、e of the mine field geology; 2.Boundary and the reserves of mine; 3.The service life and working system of mine; 4.Development engineering of coalfield; 5. The layout of mining area; 6. The method used in coal mining; 7. Transportation of the underground; 8.The lifting of the mine; 9. The ventilatio
5、n and the safety operation of the mine; 10.The basic economic and technical norms.The general part is a new design of Guojiahe mine with a production of 7.0 million t/a. mine Guojiahe lines in Baoji city, SanXi province. The traffic of road and railway is very convenience to the mine. The run of the
6、 minefield is 14.94 km ,the width is about 7.93 km, well farmland total area is 88.6 km2. No. 3 are the main coal seam, and its dip angle is 06, 5 for average. The thickness of the mine are about 8.5 m. The geological conditions of the minefield is relatively simple.The proved reserve of the minefie
7、ld is 1129 Mt. The designed productive capacity is 803.38Mt, and the service life of the mine is 79.6years. The normal water flow of the mine is 1039.43 m3/h and the max flow of the mine is 1351.26 m3/h. The relative gas emission rate of the mineral well is 1.29 m3/t, for low gas mineral well.Based
8、on the geological conditions of the mine, I bring forward four available project in technology. Option I: Shaft single-level rock roadway development; Option II: Shaft single-level coal roadway development; Option III: The main diagonal vice stand a single level of Rock Lane to open up; Option IV: T
9、he main diagonal vice stand single-level coal Lane to open up.The I project is the best comparing with other three projects in technology and economy. The mining level is750m. The mine field is divided into two strip districts and three mining panels. Taking into account the long distance in the eas
10、t and west direction, The type of mine ventilation is the partition ventilation.Designed first mining district makes use of the method of the mining district preparation. The design length of working face is 250 m, which uses fully mechanized mining with full-seam mining technology. The working days
11、 in one year are 330. Everyday it takes 16 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 three working cycle. So everyday there are 9 working cycles. The advance of a working cycle is 0.8 m, and the
12、quantity of 21212.1 ton coal is made everyday.The thematic segment titled Analysis of surrounding rock control method of boltingThe translation part is entitled to spontaneous combustion tendency of Experimental study of coal-based carbon monoxide indicatorsKeywords: Shaft single-level rock roadway
13、development; strip district; Central parallel ventilation; Comprehensive Caving目 录1井田概况及地质特征11.1井田概况11.1.1交通位置11.1.2 地形地貌11.1.3 地表水11.1.4 气象11.1.5 地震31.1.6经济概况31.1.7矿区煤炭生产及规划概况31.1.8电源条件41.1.9水源条件41.1.10运输条件41.1.11 通信条件41.1.12 迁村及土地征用情况51.1.13 主要建筑材料供应条件51.1.14劳动力来源51.2地质特征51.2.1区域地质52、构造51.2.2 井田地质
14、61.2.3煤层101.2.4煤质121.2.5煤类及工业用途181.2.6水文地质181.2.7矿井开采技术条件211.2.8其它有益矿产231.2.9勘查程度和存在问题232 井田境界与储量242.1井田境界242.2 矿井储量计算242.2.1构造类型242.2.2 矿井工业储量242.2.3 矿井可采储量262.2.4工业广场煤柱263矿井工作制度、设计生产能力及服务年限283.1矿井工作制度283.2矿井设计生产能力及服务年限283.2.1矿井设计生产能力283.2.2矿井服务年限294 井田开拓304.1井田开拓的基本问题304.1.2确定井筒形式、数目、位置304.1.3工业场地
15、的位置314.1.4开采水平的确定及采盘区划分314.1.5主要开拓巷道314.1.6方案比较314.2 矿井基本巷道354.2.1 井筒354.2.2 井底车场及硐室384.2.3 主要开拓巷道405 准备方式带区巷道布置445.1 煤层的地质特征445.1.1带区位置445.1.2带区煤层特征445.1.3煤层顶底板岩石构造情况445.1.4水文地质445.1.5地质构造445.1.6地表情况445.2 带区巷道布置及生产系统445.2.1带区准备方式的确定445.2.2带区巷道布置455.2.4带区内巷道掘进方法475.2.5带区生产能力及采出率475.3带区车场选型设计486 采煤方法496.1 采煤方法的确定496.1.1确定采煤工艺方式496.2 工作面参数的确定506.2.1工作面长度506.2.2工作面采高506.2.3工作面推进长度516.2.4采煤机截深516.2.5放煤步距516.3 工作面主要设备选型516.3.1选型原则516.3.2主要设备选型516.4 工作面生产能力及回采工艺556.4.1 综采放顶煤工作面循环产量556.4
