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| Application of wave impedance inversion technology in coal resource reserve management |
| Han Xiaoli |
| Yongdingzhuang Mining Industry Corporation Ltd., Datong Mining Group, Datong 037024, China |
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Abstract Due to the complex structural changes of the coal seam in Yongdingzhuang Mine, the limited borehole data obtaining coal seam information can no longer meet the needs of high productivity and efficiency of the mine. After field research and analysis, the wave impedance inversion (WII) technology was adopted to accurately obtain the coal seam thickness data in Yongdingzhuang on the basis of the original three-dimensional geological data. The coal seam thickness results obtained from the wave impedance inversion of working face 8106 were closer to the actual situation and more accurate, which was helpful to achieve high productivity and efficiency of the mine working face and the management goal of coal resources reserves.
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| [ 1 ] 彭苏萍,邹冠贵,李巧灵. 测井约束地震反演在煤厚预测中的应用研究[ J ]. 中国矿业大学学报,2008,37( 6 ):729 - 733.
[ 2 ] 魏文希,师素珍,孙 超,等. 拟声波反演技术在识别煤层顶底板砂泥岩中的应用[ J ]. 物探与化探,2016,40( 1 ):220 - 224.
[ 3 ] 仲其涛. 煤层厚度反演方法研究与应用[ D ]. 徐州:中国矿业
大学资源与地球科学学院,2001.
[ 4 ] 靳吉祥. 基于地震属性多元回归分析的煤层厚度预测方法研
究[ D ]. 太原:太原理工大学,2010.
[ 5 ] 任秀娟,王智华. 董家河煤矿主要可采煤层赋存特征及变化原因分析[ J ]. 陕西煤炭,2009,28( 3 ):30 - 31,29.
[ 6 ] 程勇国. 孙疃煤矿10煤层厚度变化影响因素分析与研究[ J ]. 安徽冶金科技职业学院学报,2014,24( 3 ):45 - 48.
[ 7 ] 王千遥,单 蕊. 波阻抗反演技术在煤田勘探中的应用[ J ]. 煤炭技术,2018,37( 8 ):99 - 100.
[ 8 ] 马 丽,薛海军,汶小岗,等. 测井与地震资料联合反演预测 K2 灰 岩及其含水性[ J ]. 煤田地质与勘探,2016,44( 4 ):142 - 146
[ 9 ] 索重辉、常锁亮、彭仕宓,等.地震属性在煤层厚度预测上的分析与应用[ J ]. 科学技术与工程,2011,11( 34 ): 8 429 - 8 433.
[ 10 ] 刘 伍,崔若飞,高 级. 波阻抗反演在煤炭资源勘探中的应用[ J ]. 中国煤炭地质,2008,20( 6 ):59 - 62. |
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