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1、目 录设计总说明前言1矿井概况1概述1地理位置1交通条件1矿区的自然地理2井田地质特征21.2.1 地质简况21.2.2 矿区范围内的地层情况31.2.3 煤层与煤质6水文地质7储量计算及服务年限8储量等级的圈定8矿井地质储量的计算8矿井工业储量的计算91.3.4 矿井可采储量10煤尘及自然发火10矿井瓦斯10煤尘爆炸性及地温情况11煤层自燃倾向性112 井田开拓11工作制度、服务年限及合理性分析11工作制度11矿井服务年限11合理性分析11井田内再划分12井田划分阶段12阶段内的再划分13开拓方式13开采顺序13井田开拓方式13确定井硐形式、数目及配置18井硐形式的选择18确定工业广场及井口
2、位置19矿井基本巷道20井筒202.5.2 井底车场23主要开拓巷道设计253采煤方法和采区巷道布置30采煤方法30采煤方法的选择30采煤设备的选择32.3 回采工艺32采区巷道布置33采区走向长度确定33煤柱尺寸的确定33采区上山布置34联络巷的布置35综采采区巷道布置36采区运输及通风生产系统确定36采区车场设计37采区主要硐室布置393.3 采区采掘计划40采区主要巷道参数确定40采区生产能力确定43矿井生产系统444矿井通风45通风设计概述454.1.1 通风设计的原则和要求45矿井通风的影响因素46矿井通风方法47风量计算及其分配52矿井风量计算原则52矿井风量计算52风量分配57风
3、速验算 见表4-4584.3 通风阻力的计算58矿井通风阻力的计算原则58矿井通风阻力计算(第一水平)58等积孔的计算60矿井通风设备的选择60矿井通风设备的要求60选择主要通风机614.4.3 选择电动机664.4.4 电费计算67其它通风费用685矿井安全技术措施68矿井瓦斯及防治695.1.1 矿井瓦斯及性质69瓦斯防治措施70停风盲巷积聚瓦斯的处理725.2 矿尘及其防治725.2.1 矿尘及其危害72防尘措施73矿井水灾的治理735.4 矿井防灭火745.4.1 矿井火灾及其分类74矿井防灭火措施74煤炭自燃的预防75防止煤炭自燃的开采技术措施75预防性灌浆75阻化剂防灭火76惰性气
4、体防火766结束语77参考文献78致 谢79刘家庄煤矿矿井通风安全设计设计总说明:本设计中的刘家庄煤矿是设计生产能力为180万t/a的新型矿井设计,分为6章:1 .矿区概况;2.井田开拓;3.采煤方法和采区巷道布置;4.矿井通风;5.矿井安全技术措施;6.结束语。井田内共有煤层6层,平均总厚度为,有3层可采煤层,平均总厚度为,倾角15,。设计井田的可采储量为176.73Mt,服务年限为65a,划分两个水平开采,第一水平服务年限为32年。井田内三个可采煤层瓦斯含量均较高,CH绝对涌出量m/min、相对涌出量 m3/t3,各煤层回踩率为80%。煤层相对稳定,顶底板有细砂、粘土、粉砂等岩石构成,结构
5、稳定,便于进行开采。本设计矿井采用双立井2水平上下山开采的开拓方式,配有主井、副井、风井等3个井筒,井筒采用混凝土、料石和锚杆喷射混凝土等永久支护。共划分8个采区,其中首采区为西区,投产工作面1个,准备工作面1个,采区均分成3个区段。工作面长为270m,每刀进度为,每日割6刀,后退式开采。由于三层煤距离过大,所以要分别进行单层煤开采,大巷采用14t架线式电机车牵引5t底卸式有轨矿车运输,采煤方法为走向长壁采煤法,采煤工艺为综合机械化采煤工艺,采空区处理方法为全部垮落法。采煤机引进德国艾柯夫公司SL500型交流电牵引采煤机。该机最大采高,截深,牵引速度031.8m/min;供电电压3300V,装
6、机功率1715kW,采用了世界上先进的状态监测和故障诊断技术,具有自动化记忆功能。运输设备为有轨矿车运输方式。各种主要巷道选用钢筋砂浆锚杆与喷射混凝土支护。采区工作面日产量为4040吨,采区日采能力为4444吨,采区回踩率为88.4%。本设计还对矿井的生产系统、运煤系统、通风系统、运料排矸系统、排水系统做了周详的设计。主井采用多绳摩擦箕斗提升,副井采用刚性组合罐道罐笼提升。矿井的通风方式为中央边界抽出式。矿井总风量为92m3/min,其中回采工作面的通风量为1211m3/min,掘进工作面的需风量为620m3/min,硐室需风量为240m3/min,其他用风巷道需风量为m3/min。矿井容易时
7、期通风总阻力为1211.45Pa,通风困难时期矿井总阻力为2097.90Pa。通风机的工作风阻,容易时期为Rsdmin2m-8,困难时期为Rsdmax2m-8。通风机风量QfR =3/s。通风机风压为:容易时期Hsdmin=1357.95Pa;困难时期Hsdmax=2536.69Pa。为使风机工况点由一个较高的工作效率所以本矿井选用BDNo24型主要通风机,n=740rmin。电费消耗为0.91元/t。通风机的实际工况点为:困难时期Qfmin=89 m3/s,Hsdmin=2620;容易时期Qfmax=80.6 m3/s,Hsdmax=1630Pa。所选电动机的输入功率为:困难时期为319.4
8、kW,困难时期为164.23kW。由于电动机需要两台,所以他的功率为Nemin=282.12kW,Nemax=393.46kW。本设计对矿井的瓦斯防治,包括瓦斯的聚集规律、火源出现规律及瓦斯防治措施;矿尘防治,包括其危害和防尘措施;水患治理,包括地表水防治和地下水防治;防灭火措施的制定,包括防治外因火灾和内因火灾,特别是针对煤的自燃的预防及治理技术等方面做了详细的分析和阐述。关键词:矿井开拓;巷道支护;采煤方法;通风方式;安全技术措施Coal mine ventilation liujiazhuang safety designDesign General Information :This
9、design is the design liujiazhuang coal production capacity of 1.8 million t / a new mine design, divided into 6 chapters: 1. Mine Overview; 2. Waida development; 3. Coal mining area and roadway layout; 4. Mine ventilation; 5. Mine safety technology; 6. Conclusion. Coal mine, there were 6 layers, wit
10、h an average total thickness of , Layer 3 coal seam, with an average total thickness of , angle 15, a total area of mine 16.8 square kilometers. Design of mine recoverable reserves for the 176.73Mt, length of service for the 65a, divided into two levels of exploitation, the first level of length of
11、service for 32 years. Mine coal seam within the three can have a higher gas content, CH4 emission absolute 43.55 m3/min, the relative emission 14.4 m3 / t. Bulk density of coal to 1.5 tons / m 3, step back to the coal rate was 80%. Relative stability of coal seam, roof and floor have fine sand, clay
12、, silt, such as rock composition, structural stability, ease of mining. The design of the mine shaft 2 dual-level mining to open up the way down the mountain with the main shaft, auxiliary shaft, the wind shaft 3 wells, wellbore using concrete, stone and materials such as permanent anchor of shotcre
13、te support. Were divided into eight mining area, including the first mining area of West areas, face an operation, ready to face one, mining area are divided into three sections. Face length of 270m, the progress of each knife to , the daily cut-6 knives, retreat mining. Coal as a result of the thre
14、e distance is too large, there is a need for single-layer, respectively, of coal mining, roadway 14t wiring used motor vehicles at the end of traction 5t dump mine car rail transport, mining methods to longwall mining method, mining Process for integrated mechanization of coal mining technology, pro
15、cessing methods goaf falling for the entire law. Shearer Ekof the introduction of Germany-based company SL500 AC traction shearer. Its largest mining height , cut deep , traction speed of 0 /min; the supply voltage of 3300V, installed power 1715kW, the use of the worlds advanced condition monitoring and fault diagnosis technology, with automatic memory function. Rail transportation equipment for the mine car modes of transport. Sele
