爆破减振

B. Trabi, F. Bleibinhaus, C. Tauchner
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引用次数: 0

摘要

采石场爆破作业伴随着地面振动,可能危及附近的建筑物。为了生产和减少地面振动,生产爆破是由几个彼此距离较小的孔组成的,这些孔在一定的时间内进行爆破。这些爆炸产生一种特定的辐射模式。将地面振动集中在一个不太敏感的方向或区域将是有利的。我们希望能够预测奥地利Erzberg山铁矿周围地区的实际非均匀情况下的地面振动。为此,采用带地形的三维弹性代码对铁矿及其周边区域的三维模型进行了数值正演模拟。三维模型本身是层析旅行时间反演的结果。一个问题是,单次爆炸的光谱响应是未知的,因此我们必须找到一个传递函数,将数值谱响应转换为观测到的谱响应。应用传递函数后,数值解的振幅谱与实测生产爆炸的振幅谱吻合较好。在这项研究中,我们研究了是否可以通过优化时滞同时爆破两个阵列来实现地面振动的减少。为了优化时间延迟我们开发了一种全局搜索算法,基于马尔可夫链蒙特卡罗方法找到潜在的爆炸配置,对采石场附近关键位置的影响最小。这项研究是欧盟资助的项目SLIM(可持续低影响采矿,www.slim-project.eu)的一部分。
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Blast vibration reduction

Blasting operations in quarries are accompanied by ground vibrations which can endanger buildings nearby. A production blast is made of several holes with a small distance to each other, which are blasted with a time delay, for the purpose of production and to reduce the ground vibrations. These production blasts produce a specific radiation pattern. It would be favorable to focus the ground vibrations to a less sensitive direction or area. We want to be able to predict the ground vibrations for a realistic inhomogeneous case at an area around the iron ore mine at mount Erzberg in Austria. Therefore a numerical forward modeling on a 3D model of the iron ore mine and its surrounding area was performed with a 3D elastic code with topography. The 3D model itself is the result of a tomographic travel time inversion. One problem is that the spectral response of a single blast is unknown and therefore we had to find a transfer function which transfers the numeric spectral response to the observed spectral response. After applying the transfer function the amplitude spectra of the numerical solution show a good match to the amplitude spectra of the observed production blasts. In this study, we investigate, if a reduction of ground vibrations can be achieved by blasting simultaneously two arrays with optimized time delays. To achieve that optimized time delays we developed a global search algorithm, based on Markov chain Monte Carlo method which finds potential blast configurations, with minimum impact to critical locations near the quarry. This study is part of the EU-funded project SLIM (Sustainable Low Impact Mining, www.slim-project.eu).

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