Monitoring of displacements and deformations of the earth's surface at the Annensky field

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING
B. Sadykov, A. Altayeva, W. Stelling
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Abstract

In connection with the ongoing depletion of mineral reserves located in relatively favorable conditions, at shallow depths, it is increasingly necessary to involve deposits located in complex mining and geological conditions; occurring at great depths, in complex, poorly studied and potentially dangerous conditions. The deposits developed by the underground method are no exception. Safe and efficient development of mineral deposits by underground method, occurring at great depths, is complicated by the fact that with an increase in the depth of mining, the nature of the course of deformation processes in the rock mass and the degree of their impact on the environment change. Studies of deformation processes, their control and forecast in many cases determine the efficiency and safety of the development of deposits of solid minerals. A practical forecast can be made as a result of continuous tracking in space and time of deformation processes. Currently, to determine the displacements and deformations of the earth's surface of the field, complex monitoring is used, which includes the following methods: - methods of preliminary diagnostics of the rock massif; - repeated high-precision leveling; - satellite geodetic methods, primarily interferometry methods; - other methods of instrumental observations in regional and local areas. It should be noted that ground-based methods used for geomechanical monitoring of earth surface deformations, such as repeated geodetic leveling, as well as the use of satellite geodesy methods, do not fully reflect the temporal detail and spatial scale of the changes in the earth surface deformations. Today, the methods and technologies of space radar interferometry are of particular practical value, which make it possible to obtain areal estimates of vertical and planned displacements of the earth's surface with an accuracy of a few millimeters, regardless of illumination and cloudiness conditions. Space radar interferometry (CRI) is an effective tool for direct mapping of the earth's surface movements and deformations of structures over large areas of the study areas.
监测安嫩斯基油田地表的位移和变形
由于位于较有利条件下的浅层矿藏不断枯竭,越来越有必要涉及位于复杂采矿和地质条件下的矿藏;发生在极深、复杂、研究不足和潜在危险的条件下。地下法开采的矿床也不例外。由于随着开采深度的增加,岩体变形过程的性质及其对环境的影响程度也会发生变化,因此利用地下方法安全有效地开发深埋矿床的工作变得十分复杂。在许多情况下,变形过程的研究、控制和预测决定了固体矿物矿床开发的效率和安全性。在空间和时间上对变形过程进行连续跟踪,可以进行实际的预报。目前,为了确定野外地表的位移和变形,采用了复杂的监测方法,其中包括以下方法:岩体的初步诊断方法;-重复高精度找平;-卫星大地测量方法,主要是干涉测量方法;-在区域和局部地区的其他仪器观测方法。需要指出的是,用于地表变形地质力学监测的地基方法,如重复大地测量水准,以及卫星大地测量方法的使用,并不能充分反映地表变形变化的时间细节和空间尺度。今天,空间雷达干涉测量的方法和技术具有特别的实用价值,它使我们能够以几毫米的精度获得地球表面的垂直位移和计划位移的面积估计,而不考虑光照和云量的情况。空间雷达干涉测量(CRI)是直接测绘研究区大面积地表运动和构造变形的有效工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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