SOME FEATURES OF CURRENT TECHNOGENIC MOVEMENTS OF THE EARTH’S CRUST

Pub Date : 2021-10-19 DOI:10.5800/gt-2021-12-3s-0554

V. Timofeev, D. G. Ardyukov, A. Timofeev, E. V. Boyko, M. Valitov, E. Kalish, Y. Stus’, D. Nosov, I. S. Sizikov

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引用次数: 1

Abstract

We describe the history of studying the current crustal movements by various methods and discuss technogenic effects recorded at large water-reservoir zones and mineral deposits in Siberia. Initially, classical surveying techniques aimed to obtain high-accuracy ground-based measurements of height, tilt and direction. Modern geodesy techniques and methods for measuring absolute gravity are now available to investigate displacement, deformation, tilt and other phenomena taking place on the Earth’s surface. These methods are used to estimate kinematic parameters of the crust areas (e.g. rates of subsidence and horizontal movements) and to monitor fluid motions in mineral deposits. Such data are critical for ensuring a proper management of the mineral deposits. In this article, we analyse technogenic processes observed in the Ust Balyk oil-gas field, the Zapolyarny gas deposit, the water-reservoir zone at the Sayano-Shushenskaya hydroelectric power station (SSHPS) on the Yenisei river, and large open-pit mines in the Kuzbass basin. Our analysis is based on surface displacement rates estimated from the data collected in different periods of observations at large man-made facilities. In the study of the hydro technical objects, we estimated the displacement rates at 5.0 mm per year. In the northern areas of the West Siberian petroleum basin, subsidence rates amounted to 20–25 mm per year in the early 2000s. These estimates were supported by the high-accuracy gravity measurements showing an increase up to 6–7 microGal per year in the oil-gas field development areas. We assess a possibility of triggering effects related to weak seismicity due to a high stress accumulation rate (1 KPa per hour) in the SSHPS area. A connection between earth tides and catastrophic events, such as gas emissions in high amounts on mining sites, is discussed. Having analysed the surface monitoring records taken in South Primorye in September 2017, we conclude that underground nuclear explosions in North Korea in this period did not cause any significant displacement of the surface in this most southerly region of the Russian Far East territories.

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当前地壳技术运动的一些特征

我们描述了用各种方法研究当前地壳运动的历史，并讨论了西伯利亚大型水库带和矿床记录的技术效应。最初，传统的测量技术旨在获得高精度的地面高度、倾斜度和方向测量。测量绝对重力的现代大地测量技术和方法现在可用于研究地球表面发生的位移、变形、倾斜和其他现象。这些方法用于估计地壳区域的运动学参数(例如，沉降和水平运动的速率)，并监测矿床中的流体运动。这些数据对于确保妥善管理矿藏是至关重要的。在本文中，我们分析了在Ust Balyk油气田，Zapolyarny天然气矿床，叶尼塞河上的Sayano-Shushenskaya水电站(SSHPS)的蓄水区以及库兹巴斯盆地的大型露天矿中观察到的工艺过程。我们的分析是根据大型人造设施在不同时期收集的观测数据估计的地表位移率。在水利技术对象的研究中，我们估计排水量为每年5.0 mm。在西西伯利亚盆地北部地区，2000年代初的沉降速率为每年20-25毫米。这些估计得到了高精度重力测量的支持，在油气田开发区域，重力每年增加6-7微加仑。我们评估了由于SSHPS地区的高应力积累速率(每小时1千帕)而导致的与弱地震活动相关的触发效应的可能性。讨论了潮汐与灾难性事件之间的联系，例如在矿区大量排放气体。在分析了2017年9月在南滨海地区拍摄的地面监测记录后，我们得出结论，朝鲜在此期间的地下核爆炸并未导致俄罗斯远东地区最南部地区的地面发生任何重大位移。

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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