王金贵, 张苏. 煤岩静爆致裂微震活动规律及频谱演变特征[J]. 煤炭学报, 2017, (7). DOI: 10.13225/j.cnki.jccs.2016.1624
引用本文: 王金贵, 张苏. 煤岩静爆致裂微震活动规律及频谱演变特征[J]. 煤炭学报, 2017, (7). DOI: 10.13225/j.cnki.jccs.2016.1624
WANG Jin-gui, ZHANG Su. Characteristics of microseismic signals and its frequency-spectrum evolvement rule during the static cracking of coal[J]. Journal of China Coal Society, 2017, (7). DOI: 10.13225/j.cnki.jccs.2016.1624
Citation: WANG Jin-gui, ZHANG Su. Characteristics of microseismic signals and its frequency-spectrum evolvement rule during the static cracking of coal[J]. Journal of China Coal Society, 2017, (7). DOI: 10.13225/j.cnki.jccs.2016.1624

煤岩静爆致裂微震活动规律及频谱演变特征

Characteristics of microseismic signals and its frequency-spectrum evolvement rule during the static cracking of coal

  • 摘要: 利用静态破碎剂对原煤试件进行静爆致裂,通过煤岩动力灾害实验模拟系统(ZDKT-1型)实时监测该破裂过程中的微震信号,以模拟研究煤岩静爆致裂增透过程中微震活动规律及频谱演变特征。研究发现:(1)受煤岩层理影响,煤岩静爆致裂后除纵向裂纹外还存在横向裂纹,但纵向裂纹多于横向裂纹;(2)静爆致裂可分微裂、膨胀压传递及劈裂3个阶段;随着进程发展,微震幅值趋于走强,尾波愈发明显,频域变宽(但主频降低),且主震、尾波频域差异较大;可通过微震幅值、尾波发育及频谱特征评估煤层静爆致裂增透进程;(3)微震事件阵发性明显,且幅值及能量呈强弱相间分布;微震计数与总裂纹面积正有关,可通过微震事件数评价煤层致裂增透效果。

     

    Abstract: The coal cylinder models were static cracking destroyed at different rates by soundless cracking agent. The microseismic signals in the rupture process were monitored by ZDKT-1 type coal or rock dynamic disasters experimen-tal simulation system. The authors tried to analyze the amplitude,energy and frequency-spectrum characteristics of mi-croseismic signals during the static cracking of coal. It was found that the longitudinal cracks were more than transverse cracks after the static cracking of coal,the radial tensile stress was more obvious than the axial tensile stress. The static cracking process of coal could be divided into three stages:micro crack stage,expansion stress transfer stage and cleav-age stage. With the static explosion process,the greater of the average amplitude of microseismic signals,coda wave de-velopment,and the frequency domain of signals were wider too (but dominant frequency decrease). The frequency do-main of main shock and coda wave are different. It is possible to evaluate the process of the static cracking of coal seams by the amplitude of microseismic,the development of coda wave and the spectral characteristics. The micro-seisms signals are paroxysmal,the amplitudes and energies of microseismic signals in the static cracking process do not change monotonically,but show volatility changes. The numbers of microseismic events are related to the macro crack areas. It is possible to evaluate the permeability improvement effect in the process of the static cracking of coal seams by microseismic count.

     

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