張小樓煤礦1.5Mta新井設(shè)計(jì)【含CAD圖紙+文檔】
張小樓煤礦1.5Mta新井設(shè)計(jì)【含CAD圖紙+文檔】,含CAD圖紙+文檔,張小樓,煤礦,mta,設(shè)計(jì),cad,圖紙,文檔
摘 要
本設(shè)計(jì)包括三個(gè)部分:一般部分、專題部分和翻譯部分。
一般部分針對(duì)張小樓礦井進(jìn)行了井型為1.5Mt/a的新井設(shè)計(jì)。張小樓礦位于徐州市西北銅山縣柳新鎮(zhèn)和劉集鎮(zhèn)境內(nèi)。整個(gè)井田東西長(zhǎng)約4.80km、南北寬約3.53km,井田面積16.54km2。開采深度為-280m~-1250m。主采煤層為7煤和9煤,7煤煤厚6m,9煤煤厚3m,兩煤層相距10m左右,為近距離煤層,煤層傾角變化較大,淺部平均20°,深部平均5°。礦井正常涌水量為76m3/h,最大涌水量為160m3/h;礦井相對(duì)瓦斯涌出量為3.35m3/t,屬低瓦斯礦井。
井田工業(yè)儲(chǔ)量為205.39Mt,可采儲(chǔ)量137Mt,礦井設(shè)計(jì)井型為1.5Mt/a,礦井服務(wù)年限為65.24a。
根據(jù)井田地質(zhì)條件,設(shè)計(jì)采用立井兩水平開拓方式,都為上下山準(zhǔn)備方式,一水平位于-600m,上山垂高320m,下山垂高250m,二水平位于-1150m,上山垂高300m,下山垂高100m,。井田共分為7個(gè)采區(qū)和2個(gè)帶區(qū),軌道大巷和膠帶機(jī)大巷巖石大巷,布置在9煤層底板巖層中。考慮到本礦井為低瓦斯礦井,礦井通風(fēng)方式采用中央并列式通風(fēng)。
大巷采用膠帶輸送機(jī)運(yùn)煤,輔助運(yùn)輸采用架線式電機(jī)車牽引固定箱式礦車。主井采用箕斗提煤,副井采用罐籠運(yùn)料和升降人員。
針對(duì)東一采區(qū)采用了采區(qū)聯(lián)合準(zhǔn)備方式,共劃分3個(gè)區(qū)段,并進(jìn)行了運(yùn)煤、通風(fēng)、運(yùn)料、排矸、供電系統(tǒng)設(shè)計(jì)。
針對(duì)7101工作面進(jìn)行了采煤工藝設(shè)計(jì)。該工作面煤層平均厚度為6.0m,平均傾角20°,直接頂為泥巖,老頂為細(xì)砂巖。工作面采用長(zhǎng)壁綜采放頂煤采煤法。采用雙滾筒采煤機(jī)割煤,往返一次割兩刀。采用“四六制”工作制度,截深0.6m,每天六個(gè)循環(huán),循環(huán)進(jìn)尺3.6m,月推進(jìn)度108m。
專題部分題目為《張小樓礦微震規(guī)律與沖擊礦壓關(guān)系研究》,以張小樓礦95206工作面為背景,進(jìn)行了詳實(shí)的微震觀測(cè)數(shù)據(jù)收集與處理,分析得到張小樓礦微震分布規(guī)律與沖擊礦壓關(guān)系,為張小樓礦進(jìn)行防止沖擊礦壓提供了有力的技術(shù)支持。
翻譯部分題目為《Mine gas drainage and outburst control in Australian underground coal mines》,主要介紹了澳大利亞預(yù)防煤與瓦斯突出技術(shù)。
關(guān)鍵詞:張小樓礦;立井兩水平開拓;采區(qū)布置;綜采放頂煤;中央并列式通風(fēng);微震檢測(cè);沖擊礦壓
ABSTRACT
This design includes three parts: the general part, special subject part and translation part.
The general design is about a 1.50 Mt/a new underground mine design of zhang xiao lou coal mine. Zhang xiao lou coal mine is located in xuzhou, Jiangsu province. It’s about 4.8 km on the strike and 3.53km on the dip, with the 16.54 km2 total horizontal area. The minable coal seam is 7# and 9# with an average thickness of 6.0 m and 3m .The Two layers of coal are 10 m apart.They are very close. The Two layers of coal has a larger change dip , shallow average of 20° , deep average of 5°. The normal mine inflow is 76 m3/h and the maximum mine inflow is 160 m3/h. The mine gas emission rate is 3.35 m3/t which can be recognized as low gaseous mine.
The proved reserves of this coal mine are 205.39 Mt and the minable reserves are 137 Mt, with a mine life of 65.24 a.
Based on the geological condition of the mine, this design uses a duel-vertical shaft two-level development method, and full strip preparation ,which divided into seven districts and two strips, The first level is located -600 m ,and rise horizon interval is 320 m , and dip horizon interval is 250 The second level is located -1150 m ,and rise horizon interval is 300 m , and dip horizon interval is 100 m. Track roadway, belt conveyor roadway are all rock roadways, arranged in the floor rock of 9# coal seam. Taking into account of the low gaseous emission, mine ventilation method use centralized parallel ventilation.
Main roadway makes use of belt conveyor to transport coal resource, and battery locomotive to be assistant transport. The main shaft uses skips to lift coal with a balance hammer and the auxiliary shaft uses cage to lift material and personnel transportation.
The design applies strip preparation against the first districts of East One which divided into 3 stirps totally, and conducted coal conveyance, ventilation, gangue conveyance and electricity designing.
The design conducted coal mining technology design against the 7101 face. The coal seam average thickness of this working face is 6.0 m and the average dip is 20°, the immediate roof is mud stone and the main roof is sand stone. The working face applies fully mechanized longwall mining with sublevel caving method, and uses double drum shearer cutting coal which cuts twice each working cycle. "Four-Six" working system has been used in this design and the depth-web is 0.6 m with six working cycles per day, and the advance of a working cycle is 3.6 m and the advance is 108 m per month.
The monographic study entitled " The relation between rockburst and the law of Microseismic in zhangxiaolou coal mine", the study took 95206 workface as an example, conducted a detailed pressure observation data collection and processing, gave the deformation and convergence law of soft rock roadway, which had significant guidance for practical mine production.
The title of the translated academic paper is " Mine gas drainage and outburst control in Australian underground coal mines ",Used in Australia.
Keywords:Zhangxiaolou coal mine; duel-vertical shaft two-level development method; district mode; sublevel caving method; centralized parallel ventilation; Microseismic prosecution techniques; rockburst
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