这一结论对于利用微震监测系统监测预报冲击矿压具有一定的借鉴意义。
The conclusion will generate considerable important directive significance for monitoring and forecasting rockburst catastrophe with MS monitoring system in coal mines.
矿山CT包括煤矿微震监测系统(KJ550)和煤矿冲击地压监测系统(KJ551)。
Mine CT include KJ550 Coal mine microseismic monitoring system (KJ550 CMS) and KJ551 Coal mine rock burst monitoring system (KJ551 CRMS).
采用人工爆破震源对微震监测系统的定位精度进行了3次测试,监测范围内的震源定位误差为3。
Using blasting to locate the accuracy of micro-seismic monitoring system for three tests, it is found that the source location error is the 3.
采用人工爆破震源对微震监测系统的定位精度进行了3次测试,监测范围内的震源定位误差为3。
Using blasting to locate the accuracy of micro-seismic monitoring system for three tests, within the scope of monitoring, the source location error is the 3.
详细介绍微震监测系统的组成和性能,采用人工爆破震源对微震监测系统的定位精度进行3次测试,监测范围内的震源定位误差为3。
Using blasting to locate the accuracy of micro-seismic monitoring system for three tests, it is found that the source location error is the 3.
同时,微震监测分析系统能够实现对其他岩石工程动力灾害问题进行预测预报。
Meanwhile, the mine MMAS can also be used to predict other dynamical disasters of rock engineering.
同时,微震监测分析系统能够实现对其他岩石工程动力灾害问题进行预测预报。
Meanwhile, the mine MMAS can also be used to predict other dynamical disasters of rock engineering.
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