采煤方法图
祁东煤矿0.9Mt/a新井设计
摘要
本设计包括三个部分:一般部分、专题部分和翻译部分。
一般部分为祁东矿61号煤90万t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-采区巷道布置;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。
祁东煤矿位于宿南向斜的东南端,为一走向近东西、倾向北、倾角约10~15°的单斜构造,并在其上发育有次一级的褶曲和断层,区内小构造极为发育。井田东西长约9km,南北宽约3.5~5km,面积约35km2。。井田内主采煤层一层,即61-1煤层平均厚2.8 m,井田工业储量为96.81 Mt,可采储量91.69 Mt,矿井服务年限为58.3a。煤层硬度系数f=2.3,煤质牌号为无烟煤、焦煤。本矿井为高瓦斯矿井,瓦斯绝对涌出量为13.32 m3/min。本矿井正
常涌水量为480 m3/h,最大涌水量为620 m3/h。矿井采用双立井两水平开拓,采用对角式通风。由于矿井地质条件简单,且为缓倾斜煤层,所以整个矿井采用采区布置,系统简单可靠。一矿一面,采煤方法为长壁综合机械化采煤法。煤炭运输采用钢丝绳芯胶带,辅助运输采用电机车。
矿井年工作日为330 d,每天净提升时间16 h。矿井工作制度为:实行“三八”制。专题部分题目是蛇形山矿下保护层工作面高位钻孔抽采瓦斯技术研究。翻译部分是一篇煤与瓦斯突出控制技术在高瓦斯煤层快速掘进中的应用,英文原文题目为:
Outburst control technology for rapid excavation in severe outburst coal
关键词:新井设计;立井;综采;对角式通风;
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 0.9 Mt/a new underground mine design of Qidong coal mine. It contains ten chapters: 1.overview and the geographical features of the mining field; 2.boundary and reserves of the mining field; 3.working system, designed mine capacity and mine life; 4.development of mining field; 5.preparation in strip district; 6.coal mining method; 7.underground conveying; 8.mine exaltation; 9.mine ventilation and safety technology; 10.the basic technical and economic index.
Qidong coal mine lies in Huaibei, Anhui province.It is in suzhou town, the traffic is very convenient. Field for 9 km east-west direction length, length of north-south tilt 15 km 3 ~ 3.5 km,
35.55 km2 compartmentalized level area. The minable coal seam of this mine is only 13-1 with an
average thickness of 2.8 m and an average dip of 14°, field 96.81 Mt for industrial reserves, recoverable reserves91.69 Mt, the mine for a service life 58.3. Coal seam hardness coefficient f = 2.3, coal brand for anthracite, coking coal. The mine is high gas, gas emission to the absolute
13.32 m3/min. This mine normal section for 480 m3 / h, maximum section for 620m3 / h.
This mine adopts vertical shaft development with one mining level,the prophase development used central paratactic type ventilation, set up a compartmentalized later in the south wind Wells border. Simple as mine geological conditions, and is gently inclined seam, so the whole layout of the mine by band, the system simple and reliable.A coal mining method side, for ore longwall comprehensive mechanized mining methods. Coal transport using rope core tape, auxiliary transport by electric locomotive.
We work 330 days per year ,and exaltate 16 hours one day .The ―three–eight‖ working system is applied for coal mining .
Special parts is the technology research of sexing hill mining protection layer face high level borehole gas drainage.
The monographic study is the excavation project on coal and gas outburst prevention and control technology research and application, the English text titled: Outburst control technology for rapid excavation in severe outburst coal
Keywords:New design of mine; Shaft ; Fully mechanized; Diagonal type ventilation;
目录
1矿井概述及井田地质特征1
1.1矿井概述1
1.1.1交通位置1
1.1.2地形与河流1
1.1.3气象1
1.1.4矿井的水位情况2
`1.2祁东煤矿地质水文特征2
1.2.1井田地质构造2
1.2.2祁东煤矿的水文地质条件2
1.3煤层特征7
1.3.1煤质7
1.3.2瓦斯、煤尘、自燃发火及地温7
1.3.3煤尘爆炸性及煤的自燃7
2井田境界及储量8
2.1井田境界8
2.2矿井储量计算8
2.2.1矿井工业储量8
2.3矿井可采储量10
2.3.1工业广场保护煤柱10
2.3.2断层和井筒保护煤柱11
2.3.3防水安全煤岩柱11
2.3.4井田边界煤柱12
2.3.5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13
3.1矿井工作制度13
3.2矿井设计生产能力及服务年限13
3.2.1确定依据13
3.2.2矿井设计生产能力13
3.2.3矿井服务年限13
3.2.4井型校核14
4井田开拓15
4.1井田开拓的基本问题15
4.1.1井筒形式、位置及数目15
4.1.2工业场地的位置17
4.1.3开采水平及大巷的确定17
4.1.4开拓方案比较18
4.2矿井基本巷道29
4.2.1井筒29
4.2.2井底车场及硐室33
4.2.3大巷34
4.2.4巷道支护38
5准备方式——采区巷道布置39
5.1煤层地质特征39
5.1.1采区位置39
5.1.2采区煤层特征39
5.1.3煤层顶底板岩石构造情况39
5.1.4水文地质39
5.2采区巷道布置及生产系统39
5.2.1采区位置及范围39
5.2.2采煤方法及工作面长度的确定40
5.2.3确定采区各种巷道的尺寸、支护方式及通风方式40
5.2.4煤柱尺寸的确定40
5.2.5采区巷道的联络方式40
5.2.6采区接替顺序40
5.2.7采区生产系统41
5.2.8采区内巷道掘进方法42
5.2.9采区生产能力及采出率42
5.3带区车场及主要硐室43
5.3.1带区下部车场设计43
5.3.2带区主要硐室43
6采煤方法44
6.1采煤工艺方式44
6.1.1采区煤层特征及地质条件44
6.1.2确定采煤工艺方式44
6.1.3回采工作面参数44
6.1.4回采工作面破煤、装煤方式45
6.1.5进刀方式45
6.1.6移架方式46
6.1.7回采工艺及设备46
6.1.8各工艺过程注意事项52
6.1.9工作面端头支护和超前支护53
6.1.10循环图表、劳动组织、主要技术经济指标54
6.1.11综合机械化采煤过程中应注意事项58
6.2回采巷道布置59
6.2.1回采巷道布置方式59
6.2.2回采巷道参数59
井下运输62
7.1概述62
7.1.1井下运输的原始条件和数据62
7.1.2井下运输系统62
7.2煤炭运输方式和设备选择62
7.3辅助运输方式和设备选择63
7.3.1选择电机车63
7.3.2设备选择64
7.3.3运输设备能力验算65
8矿井提升67
8.1矿井提升概述67
8.2主副井提升67
8.2.1主井提升设备选型67
8.2.2副井提升70
9矿井通风及安全72
9.1矿井通风系统选择72
9.1.1矿井概况72
9.1.2矿井通风系统的基本要求72
9.1.3矿井通风方式的确定72
9.1.4主要通风机工作方式选择73
9.1.5采区通风系统的要求74
9.1.6工作面通风方式的选择74
9.1.7回采工作面进回风巷道的布置75
9.2采区及全矿所需风量75
9.2.1采煤工作面实际需要风量75
9.2.2掘进工作面需风量77
9.2.3硐室需风量78
9.2.4其它巷道所需风量78
9.2.5矿井总风量计算78
9.2.6风量分配78
9.3矿井通风总阻力计算79
9.3.1矿井通风总阻力计算原则79
9.3.2确定矿井通风容易和困难时期79
9.3.3矿井最大阻力路线80
9.3.4矿井通风阻力计算84
9.3.5矿井通风总阻力85
9.3.6两个时期的矿井总风阻和总等积孔85
9.5选择矿井通风设备86
9.5.1选择主要通风机86
9.6安全灾害的预防措施90
9.6.1瓦斯管理措施90
9.6.2预防井下火灾的措施90
9.6.3防水措施90
10设计矿井基本技术经济指标91
参考文献92
致谢93
祁东煤矿开拓剖面图
祁东矿采区巷道布置剖面图
祁东矿采区巷道布置图
祁东煤矿开拓平面图
设计目录1
设计所包含文件
摘要部分
字数统计
设计目录2
