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采动覆岩变形多场光纤神经感知与安全保障体系构建研究

Research on multi-field fiber optic neural sensing and safety guarantee system constructing for mining overburden deformation

  • 摘要: 地下煤层开采引起煤层上覆岩体的变形、破坏与垮落,若采动覆岩变形破坏监测预警和应急处置不当,往往会导致工作面发生冒顶、突水、瓦斯突出和冲击地压等开采灾害事故。为保障开采工作面的本质安全,需要对煤层采动覆岩变形进行全实时动态感知与全过程智能预警。大量的现场监测试验研究结果表明,煤层上覆岩土体的变形破坏存在不连续和非线性变化特点,因此,如何突破覆岩变形的时空不连续观测瓶颈,实时准确地获取煤层上覆岩土体的多场数据,已成为采动覆岩变形破坏机理研究的关键一环。基于分布式光纤感测技术,对煤层采动过程上覆岩土体的变形场、温度场、渗流场和地电场进行了系统性研究,详细介绍了各物理场的作用机理、观测技术、研究现状以及发展趋势,并分析了基于DAS技术的矿山工程微震研究方向,以期为实现矿山地下空间的“透明化”探测提供理论支撑;通过构建井上井下一体化协同的光纤感知神经网络,建立一套集感知–传输–处理–预警–决策–应急于一体的煤层采动覆岩安全保障体系,该体系由实时感知、可靠传输、智能处理、即时预警和应急决策五大模块构成,可实现采动覆岩变形破坏全过程的动态感知和多场实时数据的关联分析与评价,进而为保障煤层开采全周期安全提供技术支撑,研究成果同时可为开采矿区范围内的地质环境监测评价与修复治理提供参考依据。

     

    Abstract: Underground coal seam mining causes the deformation, failure, and collapse of the overlying rock mass of the coal seam. Suppose the monitoring and early warning of overburden deformation and failure during mining or the emergency response are inappropriate. Mining disasters such as roof falls, water inrush, gas outbursts, and rock bursts will often occur in the working face. To ensure the intrinsic safety of the mining face, it is of great significance to implement full real-time dynamic sensing and whole process intelligent warning of the overlying strata deformation caused by coal mining. A large number of field monitoring test results show that the deformation and failure of the overlying rock and soil mass of the coal seam are discontinuous and nonlinear. Therefore, how to break through the bottleneck of spatio-temporal discontinuous observation of overlying rock deformation and obtain real-time and accurate multi-field data of overlying rock and soil mass of the coal seam has become a critical link in the mechanism research for mining overlying rock deformation and failure. Based on the distributed fiber optic sensing technology, this paper systematically studies the deformation field, temperature field, seepage field, and geoelectric field of the overlying rock and soil mass during the coal mining process, introduces the mechanism, observation technology, research status, and development trend of each physical field in detail, and analyzes the research direction of mine engineering microseismic based on DAS technology, to provide theoretical support for the realization of “transparent” exploration of mine underground space. A safety guarantee system for coal seam overburden during mining integrating sensing, transmission, processing, early warning, and decision-making emergency is established through constructing a fiber optic sensing neural network combined with surface and downhole. The system consists of five modules: real-time sensing, reliable transmission, intelligent processing, instant early warning, and emergency decision-making, which can realize the intelligent sensing of the whole process of overburden deformation and failure during mining as well as the correlation analysis and evaluation of multi-field real-time data. The research results can also provide a reference for the monitoring and evaluation of the geological environment within the mining area and the restoration and treatment.

     

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