高级检索

煤矿工业广场开挖边坡崩塌特征分析与运动模拟

Characteristic analysis and kinematics simulation of slope collapse in coal mine industrial site excavation

  • 摘要: 陕北地区采煤活动频繁且持续,容易引发一系列的地质灾害。煤矿工业广场的开挖边坡易引发崩塌灾害隐患,给场地内的建筑、设备、人员和车辆等带来极大威胁。当下对于崩塌隐患的分析和预测常采用基于坡表剖面线的二维分析办法,存在人为选定崩塌运动路径随机性大,无法在第三维度研究崩塌分布范围、影响程度等缺点,难以对崩塌灾害进行高效的评估。为解决上述问题,以陕北某煤矿工业广场的开挖边坡为例,在现场调查的基础上,采用无人机自动航空摄影测量与自动化建立高精度三维地面模型技术、点云数据提取结构面参数技术及三维崩塌运动模拟技术,分析了历史崩塌分布的统计学特征,岩体结构面的产状和物源区危岩体等特征,并进行了开挖边坡崩塌危岩体的运动特征的模拟,通过模拟,获取了崩塌体的运动轨迹、影响范围和最优路径下的弹跳高度、能量分布等。结果表明,危岩区主要威胁工业广场东北侧的生活区和东南侧的停车场,不会对工业广场中部的G338国道、工业广场西侧的黄土路肩和河流水面构成威胁。其中,A危岩区对生活区影响范围最大,为62 m,D危岩区对停车场影响范围最大,为105 m;最优路径时,D危岩区落石质心距离坡面的高度最大,为8.33 m,A危岩区落石质心距离生活区的高度最大,为4.59 m,C危岩区落石质心距离停车场的高度最大,为5.85 m;被动防护网能较为有效地防护A危岩区的落石,对B危岩区的落石防护作用不显著,对C、D、E、F危岩区无防护效果。有关研究结论可以为崩塌的灾害治理、防治设计提供一定的指导依据。

     

    Abstract: Coal mining activities in northern Shaanxi are frequent and continuous, which is easy to cause a series of geological disasters. The excavation slope caused during the construction of the coal mine industry site is likely to cause hidden dangers of collapse, which poses a great threat to the buildings, equipment, personnel and vehicles on site. At present, the two-dimensional analysis method based on slope surface profile is often used for the analysis and prediction of collapse hazards. There are many disadvantages such as the randomness of artificially selected collapse movement path and the inability to study the distribution range of collapses in the third dimension, making it difficult to efficiently evaluate collapse disasters. In order to solve these problems, this article takes the excavation slope of a coal mine industrial site in northern Shaanxi as an example. Based on the field survey, the UAV automatic aerial photogrammetry and automatic establishment of high-precision three-dimensional ground model technology, point cloud data extraction of structural plane parameters and three-dimensional collapse movement simulation technology were used to analyze the statistical characteristics of historical collapse distribution, occurrence of rock mass structural plane and dangerous rock mass in the source area, and the movement characteristics of the excavated slope collapsed dangerous rock mass were simulated. Through simulation, the trajectory, impact range, bounce height and energy distribution under the optimal path of the collapse were obtained. The results show that the dangerous rock area mainly threatens the living area on the northeast side of the industrial site and the parking lot on the southeast, and will not pose a threat to the G338 National Highway in the middle of the industrial site, the loess shoulder and the river water surface on the west side of the industrial site. Among them, the area A has the largest impact on the living area, which is 62 m, and the area D has the largest impact on the parking lot, which is 105 m. In the optimal path, the distance between the center of mass of rockfall in dangerous rock area D and the slope surface is the largest, 8.33 m; the rockfall mass center of the area A has the largest height from the living area, which is 4.59 m, the distance between the center of mass of rockfall in dangerous rock area C and the parking lot is the largest, 5.85 m. The passive protective nets can effectively prevent rockfalls from the area A, and have no significant protective effect on rockfalls from the area B, and have no protective effect on dangerous rock areas C, D, E, and F. The relevant research conclusions can provide certain guidance for the disaster management and prevention design of collapse.

     

/

返回文章
返回