淺部煤層開采對(duì)斷層活化影響研究
2017-10-10 08:31:20吳新慶丁順華王海東
淮南師范學(xué)院學(xué)報(bào)
2017年4期
吳新慶,吳 杰,丁順華,王海東,康 征,孫 嶺
(1.淄博礦業(yè)集團(tuán)許廠煤礦,山東濟(jì)寧 272173;2.山東淄博市高青縣高城鎮(zhèn)鎮(zhèn)委辦,山東淄博 256300)
淺部煤層開采對(duì)斷層活化影響研究
吳新慶1,吳 杰2,丁順華1,王海東1,康 征1,孫 嶺1
(1.淄博礦業(yè)集團(tuán)許廠煤礦,山東濟(jì)寧 272173;2.山東淄博市高青縣高城鎮(zhèn)鎮(zhèn)委辦,山東淄博 256300)
為了研究淺部煤層回采對(duì)斷層活化影響規(guī)律,評(píng)估斷層活化對(duì)工作面回采安全的影響程度,以許廠礦3336綜放工作面的F1斷層為研究對(duì)象,隨著采掘工作的推進(jìn),采用并行電法對(duì)其活化情況進(jìn)行動(dòng)態(tài)監(jiān)測(cè),根據(jù)視電阻率變化特征分析得出:斷層隨煤層采動(dòng)而被重新激活,但該斷層未與頂板砂巖含水層發(fā)生明顯的連通,為不導(dǎo)水?dāng)鄬樱虼嘶罨瘮鄬踊静挥绊懝ぷ髅婊夭砂踩?/p>
斷層;活化;電法;監(jiān)測(cè)
Abstract:In order to study the influence of shallow seam mining on the activation of faults and to assess the impact of fault activation on safety in the working face,taking F1 fault of 3336 fully mechanized caving face in Xuchang Coal Mine as the object of study,with the advancement of mining work,the parallel electric method is used to dynamically monitor its activation.According to the change characteristic of the apparent resistivity,it is analyzed and the result shows that the fault is re-activated with the coal mining.However,the fault doesn’t connect obviously with the aquifer of sandstone roof,it’s water-noncondutive,so the activation fault basically does not affect the mining safety of the working face.
Key words:fault;activation;electrical method;monitoring
0 引言
大量工程實(shí)例表明,原始地質(zhì)條件下斷層與含水層直接溝通,構(gòu)成導(dǎo)水?dāng)鄬拥耐凰鹿时壤^小,而絕大多數(shù)是原始地質(zhì)條件下的非導(dǎo)水?dāng)鄬樱诓蓜?dòng)影響下發(fā)生突水,即斷層發(fā)生活化導(dǎo)水。例如我國(guó)煤礦開采歷史過程中發(fā)生的很大一部分頂板突水事故都是由于煤層開采過程中隨著采掘應(yīng)力環(huán)境的變化,斷層活化導(dǎo)通頂板含水層造成的。此外斷層活化對(duì)采煤的影響還體現(xiàn)在斷層帶附近的“兩帶”發(fā)育高度比正常地區(qū)有較大的增長(zhǎng)。如在水體下開采的工作面,在開采過程中比正常塊段更容易引起礦井突水事故。因此,在煤層回采過程中對(duì)斷層活化情況進(jìn)行監(jiān)測(cè),開展煤層回采對(duì)斷層活化影響規(guī)律研究,評(píng)估斷層活化對(duì)工作面回采安全的影響程度,對(duì)防治煤礦水害事故,保障煤礦安全生產(chǎn)有重要的指導(dǎo)意義。……
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