ASSESSMENT OF THE STABILITY OF MINE HAULAGE DRIFT USING STATISTICAL ANALYSIS OF ARCH YIELDING SUPPORT FAILURE

S. Volkov, H. Boichenko
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Abstract

Purpose. The stability of mine haulage drift has been evaluated using statistical analysis of arch yielding support failure under different protective measures to create safe working conditions for miners in deep coal mines with steeply dipping seams. Methods. A comprehensive approach was used, including a mine experiment , probability theory methods, and statistical analysis of experimental data. Results. The stability of mine haulage drift on steep seams was assessed in natural conditions under different protective measures. It was found that while using post-and-lintel support to protect the drift, with an arch yielding support failure frequency of w≥0.56 and normal distribution of single-factor dispersion analysis statistics, the loss of cross-sectional area of the excavation over the length of the mining site was about 50%. While using cribbing support for protection, with an arch yielding support failure frequency of w≥0.29, the loss of cross-sectional area was 30%. Empirical frequency w of the arch yielding support failure along the length of the excavation does not differ from theoretical frequencies, allowing the probability of an event related to deterioration of the stability of the mine haulage drift along the length of the mining site to be determined within a confidence interval under different protective measures. Novelty. A functional dependence was established to evaluate the stability of the mine haulage drift under different protective measures along the length of the mining site using single-factor dispersion analysis statistics of arch yielding support failure. Practical significance. Based on the statistical analysis of arch yielding support failure installed in the mine haulage drift, it is advisable to consider that the operational condition of the preparatory workings is ensured when using protective structures in the form of wooden cribbing support.
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用拱顶屈服支护破坏统计分析评价矿山运输巷道稳定性
目的。采用统计分析方法,对不同保护措施下矿用巷道的拱屈服支护失稳情况进行了评价,为深深急倾斜煤层矿井矿用巷道的安全生产创造了条件。采用综合方法,包括矿井试验、概率论方法和试验数据的统计分析。在不同的保护措施下,对自然条件下陡煤层运输巷道的稳定性进行了评价。研究发现,采用柱楣支护保护巷道时,拱屈服支护破坏频率w≥0.56,单因素离散分析统计呈正态分布,基坑截面积损失随采场长度的变化约为50%。采用槽式支护进行保护时,拱屈服支护失效频率w≥0.29,截面积损失30%。拱屈服支护沿开挖长度的经验频率w与理论频率没有差异,这使得在不同保护措施下,沿采场长度的矿运巷道稳定性恶化相关事件的概率可以在一个置信区间内确定。采用单因素离散分析统计法,建立了沿采场长度不同防护措施下的矿用牵引巷道稳定性的函数依赖关系。现实意义。通过对矿用牵引巷道安装的拱顶屈服支护失效情况的统计分析,认为在采用木垛支护形式的防护结构时,应考虑保证准备工作的运行条件。
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