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。一般部分为花园煤矿0.9Mt/a新井设计。花园煤矿位于山东省金乡县境内,交通便利。井田走向(南北)长度最大约为5.4km,最小约为3.4km,倾斜(东西)长度最大约为2.9km,最小约为1.8km,总面积为13.97km2。主采煤层为15煤,煤层倾角为616,平均总厚度为4.04m。井田地质条件较为简单。井田工业储量为78.371Mt,可采储量为51.53Mt。矿井设计生产能力为0.9Mt/a。矿井服务年限为44.04a,涌水量不大,矿井正常涌水量为86m3/h,最大涌水量为99.7m3/h。矿井瓦斯相对涌出量为1.732 m3/t,绝对
2、涌出量为6.866m3/min,为低瓦斯矿井。井田开拓方式为立井单水平开拓。采用胶带输送机运煤,采用矿车进行辅助运输。矿井通风方式为中央并列式通风。矿井年工作日为330d,工作制度为“三八”制。一般部分共包括10章:1、矿区概述与井田地质特征;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;10、设计矿井基本技术经济指标。专题部分题目是跨采巷道围岩变形规律与支护技术分析,主要分析了跨采巷道围岩变形的影响因素和变形规律,并从引起跨采巷道变形的因素的角度,分析了近年来的跨采巷道的支护
3、理论及技术,从工程实例分析了注浆加固对跨采巷道支护效果。 翻译部分主要内容关于高温度燃料电池处理煤矿低浓度瓦斯,英文题目为:Processing of coal mine gas with low methane concentrations for use in high-temperature fuel cells。关键词:立井;单水平;带区;中央并列式;一次采全高ABSTRACTThis design includes three parts: the general part, the special subject part and the translation part.Gene
4、ral part is the Huanyuan 0.9 Mt/a new coal mine well design. huayuan mine is located in counties of jinxiang in shandong province. It is very convenient to get to the mine in terms of both highway and railway. The maximum length of the coalfield is 5.4 km,and the minimum length of the coalfield is3.
5、4 km , The maximum width of the coalfield is 2.9km,and the minimum length of the coalfield is 1.8 km ,and the total area is 13.97km2.The third are the main coal seams, and its dip angle is 616 degree. The thickness of the mine is about4.04m in all. The geologic structure of this coalfield is simple.
6、The recoverable reserves of the coalfield are 78.371 million tons,and the minable reserves are 51.53 million tons. The designed productive capacity is 0.9 million tons percent year, and the service life of the mine is 44.04 years. The normal flow of the mine is 86m3 per hour and the max flow of the
7、mine is 99.7 m3 per hour. The relative mine gas gush is 1.732 m3/t and the absolute gush is 6.866 m3/min, so it is a low gas mine. The mine is a double levels to develop. The central laneway uses Belt Conveyor to transit coal, and trolley wagons are used for accessorial transportation in the roadway
8、 . The prophase ventilation mode of this mine is center juxtapose form, and the late ventilation mode of this mine is diagonal form. The “three-eight” working system is used in the huayuan mine. It produces for 330 days a year.The deneral design includes ten chapters: 1.An outline of the mine field
9、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 panels; 6. The method used in coal mining; 7. Underground transportation of the mine; 8.The lifting of the mine; 9. The ventilation and the safety oper
10、ation of the mine; 10.The basic economic and technical norms of the designed mine.The topic of special subject part is cross mining drift wallrock deformation regularity and supporting technical analysis, the paper analyzes the across adopt drift wallrock deformation and the factors affecting the de
11、formation regularity, and from across the roadway deformation caused by mining, analyses the factors in recent years in the cross of roadway supporting theory and technology, from engineering example analyzed the grunting reinforcement to cross mining roadway effect.Translation part is a boat Proces
12、sing of coal mine gas with low methane concentrations for use in high-temperature fuel cells. The English title is “Processing of coal mine gas with low methane concentrations for use in high-temperature fuel cells”.Keywords: Shaft; Single level; Panel; Center juxtapose ventilation; full-seam mining
13、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矿区气候条件11.1.3矿区的水文情况21.2井田地质特征21.2.1区域地质构造21.2.2地层31.2.3井田地质构造81.2.4含水层91.2.5岩浆侵入活动对煤层的影响121.2.6井田涌水161.3煤层及煤质161.3.1煤层161.3.2煤质171.3.3主采煤层的特性201.3.4其它有益矿产241.3.5瓦斯,煤尘,自燃及地温242 井田境界与储量272.1井田境界272.2矿井储量272.2.1构造类型272.2.2储量计算基础272.2.3安全煤柱留设原则272.2.4矿井工业储量计
14、算272.2.5矿井可采储量293 矿井工作制度、设计生产能力及服务年限313.1矿井工作制度323.2矿井设计生产能力及服务年限323.2.1确定依据323.2.2矿井设计生产能力323.2.3.井型校核324 井田开拓344.1井田开拓的基本问题344.1.1井筒形式的确定344.1.2工业场地的位置364.1.3开采水平的确定364.1.4主要开拓巷道364.1.5矿井开拓方案比较374.2矿井基本巷道464.2.1井基本巷道464.2.2井底车场505 准备方式带区巷道布置545.1煤层地质特征545.1.1采区位置545.1.2采区煤层特征545.1.3煤层顶底板岩石构造情况545.
15、1.4水文地质545.1.5地质构造545.1.6地表情况545.2 带区巷道布置及生产系统555.2.1 带区准备方式的确定555.2.2 带区巷道布置555.2.3 带区生产系统555.2.4 带区内巷道掘进方法585.2.5 带区生产能力及采出率595.3 带区车场选型设计606 采煤方法616.1采煤工艺方式616.1.1 带区煤层特征及地质条件616.1.2 确定采煤工艺方式616.1.3 回采工作面参数626.1.4 采煤工作面破煤、装煤方式626.1.5 采煤工作面支护方式666.1.6端头支护及超前支护方式686.1.7各工艺过程注意事项696.1.8回采工作面正规循环作业696.2回采巷道布置716.2.1回采巷道布置方式716.2.2回采巷道支护参数717 井下运输747.1 概述747.1.1 井下运输原始数据747.1.2 井下运输系统747.2 煤炭运输方式和设备的选择767.2.1 煤炭运输方式的选择767.2.2 带区煤炭运输设备选型及验算767.2.3 运输大巷设备选择787.3 辅助运输方式和设备选择787.3.1 辅助运输方式选择787.3.2 辅助运输
