Lasocki Stanislaw, Antoniuk Janusz, Moscicki Jerzy
University of Mining and Metallurgy, Faculty of Geology, Geophysics and Environmental Protection, Poland.
J Environ Sci Health A Tox Hazard Subst Environ Eng. 2003 Aug;38(8):1435-43. doi: 10.1081/ese-120021468.
The Zelazny Most depository of wastes from copper-ore processing, located in southwest Poland, is the largest mineral wastes repository in Europe. Moreover, it is located in a seismically active area. The seismicity is induced and is connected with mining works in the nearby underground copper mines. Any release of the contents of the repository to the environment could have devastating and even catastrophic consequences. For this reason, geophysical methods are used for continuous monitoring the state of the repository containment dams. The article presents examples of the application of geoelectric methods for detecting sites of leakage of contaminated water and a sketch of the seismic hazard analysis, which was used to predict future seismic vibrations of the repository dams.
位于波兰西南部的泽拉兹尼·莫斯特铜矿石加工废料储存库,是欧洲最大的矿物废料储存库。此外,它位于地震活跃区域。这种地震活动是由附近地下铜矿的采矿作业引发的。储存库中的物质向环境的任何泄漏都可能产生毁灭性甚至灾难性的后果。因此,采用地球物理方法对储存库围坝的状态进行持续监测。本文介绍了地电方法在检测受污染水渗漏点方面的应用实例,以及用于预测储存库大坝未来地震振动的地震危险性分析示意图。
