基于分布式光纤的覆岩变形特征监测试验研究

    Experimental Study on Deformation Characteristics Monitoring of Overlying Strata Based on Distributed Optical Fiber

    • 摘要: 采动覆岩变形、破坏方式及其内部应力演化规律是采矿工程领域研究的重要问题,通过科学、有效的监测手段对上覆岩层在工作面开采过程中的变形及来压规律进行实时监测至关重要。将分布式光纤水平、垂直埋设在模型内部,监测覆岩变形特征与应力应变状态。结果表明,1-2煤回采过程中,水平传感光纤的“马鞍形”频移曲线反映了覆岩破断的动态变化过程;布里渊频移变化度准确实现了工作面的来压判别;分布式光纤的时空演化规律揭示了整个开采过程中相似模型的应变分布特征。

       

      Abstract: The deformation, failure mode and internal stress evolution law of overlying strata during coal mining are important issues in the field of mining engineering. It is vital that the deformation and pressure law of overlying strata in the mining process of the working face are monitored in real time by scientific and effective monitoring means. In this paper, distributed optical fibers are horizontally and vertically embedded in the model to monitor the deformation characteristics and stress-strain state of the overlying strata. The results show that the “saddle-shaped” frequency shift curve of horizontal sensing optical fiber reflects the dynamic change process of the overlying strata breakage during the 1-2 coal mining process; the initial pressure and period pressure on the overlying strata of working face can be distinguished by using the variation of Brillouin frequency shift, and the strain distribution characteristics of similar model throughout the mining process were revealed by the space-time evolution regularities of distributed optical fiber.

       

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