Radon Emanation and Dynamic Processes in Highly Dispersive Media

Geosciences Pub Date : 2024-04-09 DOI:10.3390/geosciences14040102

Vladislav B. Zaalishvili, Dmitry A. Melkov, N. Martyushev, R. Klyuev, Vladislav V. Kukartsev, V. Konyukhov, Roman V. Kononenko, Angelika L. Gendon, Tatiana A. Oparina

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Abstract

The paper considers a dispersive geological medium (seismically turbid medium, as defined by A.V. Nikolaev), which is in a stress–strain state. Results of studies on the joint monitoring of seismic effects and radon emanation in various geological environments are presented. It is concluded that the turbidity of the medium, as a statistical characteristic, can be generalized in terms of other media parameters, such as permeability. A stable connection between radon emanation and dynamic processes occurring in a geological environment and caused by external influences has been established. The concentration of radon can also reflect the degree of enrichment of the environment by underground fractures. Consequently, saturation of the environment with radon provides information about the presence of disturbances in a geological environment in the form of cracks and a stress–strain state of the medium before and after seismic loadings. Radon observations make it possible to assess a continuity of the environment and the possibility of leaching in natural conditions. Therefore, it could be efficiently used for underground leaching efficiency assessment.

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高色散介质中的氡辐射和动态过程

本文考虑了处于应力-应变状态的分散地质介质（A.V. Nikolaev 定义的地震湍流介质）。文中介绍了对各种地质环境中的地震效应和氡散发进行联合监测的研究结果。结论是，介质的浊度作为一种统计特征，可以用其他介质参数（如渗透性）来概括。氡散发与地质环境中发生的动态过程和外部影响之间建立了稳定的联系。氡浓度还可以反映地下裂缝对环境的富集程度。因此，环境中的氡饱和度可以提供地质环境中裂缝形式的扰动以及地震加载前后介质的应力应变状态等信息。通过氡观测，可以评估环境的连续性和自然条件下沥滤的可能性。因此，它可以有效地用于地下沥滤效率评估。

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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Geosciences

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