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煤矿动力灾害前兆信息传感技术发展与应用

Development and application of precursory information sensing technology in coal mine dynamic disaster

  • 摘要: 为了解决煤矿动力灾害前兆信息传感监测技术缺乏,传感设备精度低、稳定性差的问题,研究分析了煤矿动力灾害监测技术的发展趋势,提出以微震、应力、瓦斯体积分数监测技术作为突破点,开展光纤光栅微震、三轴应力、分布式多点激光甲烷等多参量光学传感技术研究。研制了基于光纤光栅传感原理的光纤光栅三分量加速度传感器、微震监测装置及系统,微震频率范围达到了0.5~300 Hz,平均定位误差约为11 m;研制了基于波分复用技术(WDM)的三轴应力传感器及监测装置,实现了三维空间应力向量测量,测量范围0~30 MPa,测量误差为3%;基于激光吸收光谱原理,利用光纤光路复用技术,结合参考气室自校正技术,研制了多光路同步数据采集的分布式多点激光甲烷监测装置及系统,测量范围0~100%CH4,测量误差±3%,标校周期达到120 d。最后,从采动应力扰动诱发动力灾害的本质出发,构建以微震监测、应力动态监测及煤矿环境监测三大系统相融合的煤矿动力灾害前兆信息集成监测技术架构,其中微震监测系统作为区域性监测手段,实时监测微震源位置、能量等宏观数据;应力动态监测系统作为临场性监测手段,以危险性预警为目的,实时判识冲击危险区域和危险程度;再结合煤矿环境监测系统监测的瓦斯涌出动态指标数据对煤与瓦斯突出现象进行准确监测与预警。该系统在山西新景矿进行了集中示范应用。

     

    Abstract: In order to solve the problems of the lack of sensing and monitoring technology for the precursory information of coal mine dynamic disasters, the low precision and poor stability of sensing equipment, this paper analyzed the development trend of coal mine dynamic disaster monitoring technology. It is proposed to use micro-seismic, stress, and gas concentration monitoring technologies as breakthrough points, to develop fiber optic micro-seismic, triaxial stress, distributed multi-point laser methane sensing technologies. A fiber grating three component acceleration sensor based on the fiber grating sensing principle, a microseismic monitoring device and system are developed. The microseismic frequency range reaches 0.5-300 Hz, and the average positioning error is about 11 m.The triaxial stress sensor and monitoring device based on wavelength division multiplexing (WDM) technology are developed, and the three-dimensional space stress vector measurement is realized. The measurement range is 0-30 MPa, and the measurement error is 3%.Based on the principle of laser absorption spectrum, a distributed multi-point laser methane monitoring device and system with multi optical path synchronous data acquisition is developed by using optical fiber optical path multiplexing technology and reference chamber self-calibration technology. The measurement range is (0-100)% CH4, the measurement error is ±3%, and the calibration cycle is 120 days. Finally, starting from the essence of dynamic disaster induced by mining stress disturbance, a technical framework for integrated monitoring of precursor information of coal mine dynamic disaster is constructed, which integrates the three systems of microseismic monitoring, dynamic stress monitoring and coal mine environmental monitoring. The microseismic monitoring system, as a regional monitoring means, monitors the location, energy and other macro data of microseismic sources in real time; As a means of on-site monitoring, the dynamic stress monitoring system is used to identify the impact danger area and degree in real time for the purpose of danger early warning; Combined with the gas emission dynamic index data monitored by the coal mine environmental monitoring system, the coal and gas outburst phenomenon is accurately monitored and forewarned. The system has been intensively demonstrated in Xinjing Mine, Shanxi Province.

     

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