基于物理细观力学的跨学科方法来开发管理断裂带变形过程的新方法

V. Ruzhich, S. Psakhie, E. Shilko, E. Levina
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引用次数: 2

摘要

本文从物理细观力学的观点出发,探讨了多尺度块体构造地壳地震构造变形过程管理方法的发展。迄今为止,在地震的预测和人为地震和构造地震的预防方面,多年的研究还没有令人信服的结果。因此,近几十年来,人们越来越积极地寻求解决地震安全问题的新途径。我们研究小组活动的目的是为多学科方法提供科学依据,通过“花费”在地震和同震滑动期间岩石的机械破坏和热过程上,将断裂带中多余的剪切应力水平降低到安全的背景水平。总结了不同尺度发震事件准备领域地质和地球物理过程模拟的主要成果,以及对地震活动断层段的复杂人为影响的主要成果。在贝加尔湖裂谷带和蒙古的不同规模断层段上获得的数据证实了实施这种方法的可能性。为了在高应力断裂带实际实施这一项目,有必要进行垂直、斜向和水平多边钻井,注入不同成分的流体,并结合振动脉冲刺激,以实现切应力的安全松弛。
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Physical mesomechanics based interdisciplinary approach to the development of new methods for managing deformation process in fault zones
In the paper, we discuss an approach to the development of methods for managing seismotectonic deformation processes in a multiscale block-structured Earth’s Crust from the viewpoint of the concept of physical mesomechanics. To date, there are no convincing results of many year researches in the fields of earthquake prediction and prevention of the dangerous man-caused and tectonic earthquakes. Therefore, in recent decades, there has been an increasingly active search for new ways to solve the problem of seismic safety. The aim of our research team’s activity is to provide a scientific rationale for a multidisciplinary approach to reduce the excess level of shear stresses in the fault zones to a safe background level by “spending” it on mechanical destruction and thermal processes in rocks during aseismic and co-seismic slip. The authors summarize the main results of modeling of geological and geophysical processes in the field of preparation of different scale seismogenic events, as well as the results of complex man-made impacts on segments of seismically active faults. The data obtained on segments of different scale faults within the Baikal rift zone and Mongolia confirm the possibility of implementing such an approach. For the practical implementation of such a project at highly stressed fault zones, it is necessary to carry out vertical, oblique and horizontal multilateral drilling with an injection of fluids of different compositions in combination with vibro-pulse stimulations to achieve safe relaxation of shear stresses.
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