1、摘摘 要要 本设计包括三个部分:一般部分、专题部分和翻译部分。一般部分为张双楼矿 1.8 Mt/a 的新井设计。井田走向(东西)长平均约 10.27 km,倾向(南北)长平均约 3.29 km,井田水平面积为 32.04 km2。主采煤层一层,即 7#煤层,平均倾角 18,厚约 5.0 m。井田工业储量 224.678 Mt,可采储量 153.331 Mt,矿井服务年限为 65.53 a。井田地质条件简单;表土层平均厚度约 50 m;矿井正常涌水量为 200 m3/h,最大涌水量为 280 m3/h;煤层硬度系数 23,煤质牌号为气煤 44;矿井绝对瓦斯涌出量为3.73 m3/min,属低瓦斯
2、矿井;煤层有自燃发火倾向,发火期 36 个月,煤尘具有爆炸危险性。根据井田地质条件,提出四个技术上可行开拓方案。通过技术经济比较,最终确定方案四为最优方案。将主采煤层划分为两个水平,一水平标高600 m,二水平标高1000 m,因井田走向大断层将井田分为南北两部分,井田南部为一水平服务范围,井田北部为二水平服务范围。设计首采区采用采区准备方式,工作面长度 170 m,采用一次采全高采煤法,全部跨落法处理采空区。矿井采用“三八”制作业,两班生产,一班检修。生产班每班 3 个循环,日进 6 个循环,循环进尺 0.865 m,日产量 5632.603 t。大巷采用带式输送机运煤,辅助运输采用 1.5
3、 t 固定箱式矿车。主井装备一套 16 t 双箕斗带平衡锤提煤,副井装备一套带平衡锤的 1.5 吨固定车厢式矿车双层四车加宽罐笼。矿井采用中央并列式通风。通风容易时期矿井总需风量 78.78 m3/s,矿井通风总阻力 2035.88 Pa,风阻 0.328 Ns2/m8,等积孔 2.08 m2,矿井通风容易。矿井通风困难时期矿井总风量78.78 m3/s,矿井通风总阻力 2182.84 Pa,风阻 0.352 Ns2/m8,等积孔 2.01 m2,矿井通风也较容易。设计矿井的吨煤成本 110 元。专题部分题目是煤岩冲击倾向性及物理力学性质测定。以口孜东煤矿的生产中的煤岩样测定了口孜东顶板岩层的
4、冲击倾向性和顶板岩层的物理力学性质。翻译部分是一篇关于电磁辐射在冲击矿压中的应用的论文,英文原文题目为:EME rock burst monitoring in coal mine huafeng。关键词:立井;上下山开采;暗立井延伸;双巷掘进;中央并列式 ABSTRACT This design can be divided into three sections:general design,monographic study and translation of an academic paper.The general design is about a 1.8 Mt/a new un
5、derground mine design of Zhangshuanglou coal mine.Its about 10.27 km on the strike and 3.29 km on the dip,with the 32.04 km2 total horizontal area.The minable coal seam of this mine is only 7#with an average thickness of 5.0 m and an average dip of 18.The proved reserves of this coal mine are 224.67
6、8 Mt and the minable reserves are 153.331 Mt,with a mine life of 65.53 a.The geological condition of the mine is relatively simple.The normal mine inflow is 200 m3/h and the maximum mine inflow is 280 m3/h.It is bituminous coal 44 with low mine gas emission rate and coal spontaneous combustion tende
7、ncy,and its a coal seam liable to explosion.Based on the geological condition of the mine,I bring forward four available project in technology.The fourth project is the best comparing with other three project in technology and economy.The first level is at-600 m,The second level is at-1000 m,Because
8、 a major fault lies in the center of mine field,the mine field is divided into the north section and the south section,the south section is one level service scope,and the north section is two level service scope.Designed first mining district makes use of the method of preparation in mining area,th
9、e length of working face is 170 m,which uses fully-mechanized coal mining technology,and fully caving method to deal with goaf.The working system is“three-eight”,with two teams mining,and the other overhauling.Every mining team makes three working cycle,with six working cycle everyday.Advance of wor
10、king cycle is 0.865 m,and quantity of 5632.603 ton coal is makedeveryday.Main roadway makes use of belt conveyor to transport coal resource,and mine car to be assistant transport.Main shaft makes use of skip to transport coal resource,when subsidiary shaft makes use of cage to be assistant transport
11、.In the prophase of mining the mine makes use of centralized ventilation method,when in the evening of mining the mine makes use of areas ventilation method.At the easy time of mine ventilation,the total air quantity is 78.78 m3 per second,the total mine ventilation resistance is 2035.88 Pa,the coef
12、ficient of resistance is 0.328 Ns2/m8,equivalent orifice is 2.08 m2.At the difficult time of mine ventilation,the total air quantity is about 78.78 m3 per second,the total mine ventilation resistance is 2182.84 Pa,the coefficient of resistance is 0.352 Ns2/m8,equivalent orifice is 2.01 m2.The cost o
13、f the designed mine is 110 yuan per ton.The translated academic paper is about EME in the rock burst.Keywords:shaft;up-dip and down-dip minging;double thunnel drivage;centralized juxtapose ventilation 目 录 一般部分 1 矿区概述及井田地质特征 1 1.1 矿区概述 1 1.1.1 矿井地理位置、交通条件 1 1.1.2 矿区经济状况 1 1.1.3 矿区气候条件 2 1.1.4 矿区水文情况
14、2 1.2 井田地质特征 3 1.2.1 井田地形与勘探程度 3 1.2.2 井田煤系地层概述 3 1.2.3 井田地质构造、最主要地质变动 4 1.2.4 井田水文地质特征 6 1.3 煤层特征 6 1.3.1 煤层 6 1.3.2 煤层的围岩性质 7 1.3.3 煤的特征 7 2 井田境界和储量 9 2.1 井田境界 9 2.1.1 井田范围 9 2.1.2 开采界限 9 2.1.3 井田尺寸 9 2.2 矿井工业储量 9 2.2.1 井田地质勘探 10 2.2.2 煤层可采厚度 10 2.2.3 矿井工业储量的计算 10 2.3 矿井可采储量 10 2.3.1 井田边界保护煤柱 10 2
15、.3.2 工业广场保护煤柱 11 2.3.3 断层和井筒保护煤柱 11 2.3.4 矿井可采储量 12 3 矿井工作制度、设计生产能力及服务年限 14 3.1 矿井工作制度 14 3.2 矿井设计生产能力及服务年限 14 3.2.1 确定依据 14 3.2.2 矿井设计生产能力 14 3.2.3 矿井服务年限 14 4 井田开拓 16 4.1 井田开拓的基本问题 16 4.1.1 确定井筒形式、数目、位置及坐标 16 4.1.2 确定工业场地位置、形状和面积 17 4.1.3 开采水平的确定及采区的划分 18 4.1.4 主要开拓巷道 18 4.1.5 开拓方案比较 18 4.2 矿井基本巷道
16、 23 4.2.1 井筒 23 4.2.2 井底车场 25 4.2.3 主要开拓巷道 27 4.2.4 巷道支护 30 5 准备方式采区巷道布置 31 5.1 煤层的地质特征 31 5.1.1 采区位置 31 5.1.2 采区煤层特征 31 5.1.3 煤层顶底板岩层性质 31 5.1.4 煤层瓦斯与涌水情况 31 5.1.5 地质构造 31 5.1.6 临近矿井与地表情况 32 5.2 采区巷道布置及生产系统 32 5.2.1 确定采区巷道布置及生产系统的原则 32 5.2.2 采区位置及范围 32 5.2.3 采煤方法及工作面长度的确定 32 5.2.4 确定采区各种巷道的尺寸、支护方式及通风方式 32 5.2.5 煤柱尺寸的确定 33 5.2.6 采区巷道的联络方式 33 5.2.7 采区内工作面接替顺序 33 5.2.8 采区生产系统 33 5.2.9 采区内巷道掘进方法 34 5.2.10 采区生产能力及采出率 34 5.3 采区车场选型设计 35 5.3.1 确定采区车场形式 35 5.3.2 采区主要硐室布置 37 6 采煤方法 38 6.1 采煤工艺方式 38 6.1.
