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.

Highlights

  • 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

  • Современные движения земной поверхности Горного Алтая по GPS-наблюдениям // Гео­ динамика и тектонофизика

Read more

Summary

НЕКОТОРЫЕ ОСОБЕННОСТИ СОВРЕМЕННЫХ ТЕХНОГЕННЫХ ДВИЖЕНИЙ ЗЕМНОЙ КОРЫ

В настоя­ щее время мониторинг современных процессов выполняется методами космической геодезии и абсолютной гравиметрии, что позволяет как получать кинематические характеристики (скорость опускания или подъема, скорость и величину горизонтального смещения поверхности), так и отслеживать движение флюида в земной коре, а это дает возможность регулировать процесс добычи полезных ископаемых. При этом нивелированием были определены скорости вертикальных движений (до 70 мм/год) и предложены модели для нефтегазовых месторождений и высотных плотин. Измерения наклонов земной поверхности с помощью приливных наклономеров обычно использовались в зонах строи­ тельства плотин крупных ГЭС для контроля современ­ ных деформаций [Ostrovsky, 1978; Gridnev et al, 1989]. Используя значение наклона (ψ=40–350 мкрад) и ве­ личину годовой скорости опускания земной поверхно­ сти (h=20 мм), получаем базу смещений в 60–500 м, что свидетельствует о локальном характере эффекта.

Пункт геофизических измерений Юганская Обь
Код пункта
Откачка нефти и газа

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.