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ISSN 2096-7780 CN 10-1665/P

张晨蕾, 杨敏, 赵小茂. 数字化气氡在井(泉)地震监测中的研究进展[J]. 地震科学进展, 2020, (8): 8-13. DOI: 10.3969/j.issn.2096-7780.2020.08.002
引用本文: 张晨蕾, 杨敏, 赵小茂. 数字化气氡在井(泉)地震监测中的研究进展[J]. 地震科学进展, 2020, (8): 8-13. DOI: 10.3969/j.issn.2096-7780.2020.08.002
Chenlei Zhang, Min Yang, Xiaomao Zhao. The research progress on digital measurement of gas Radon in wells(springs) for seismic monitoring[J]. Progress in Earthquake Sciences, 2020, (8): 8-13. DOI: 10.3969/j.issn.2096-7780.2020.08.002
Citation: Chenlei Zhang, Min Yang, Xiaomao Zhao. The research progress on digital measurement of gas Radon in wells(springs) for seismic monitoring[J]. Progress in Earthquake Sciences, 2020, (8): 8-13. DOI: 10.3969/j.issn.2096-7780.2020.08.002

数字化气氡在井(泉)地震监测中的研究进展

The research progress on digital measurement of gas Radon in wells(springs) for seismic monitoring

  • 摘要: 氡是地下流体预报地震的灵敏组分之一,数字化气氡观测已经成为地震监测的一种重要手段。近年来,一些地震台站能够观测到气氡测值出现的震前异常、震后效应以及同震效应等变化,本文对这些异常变化研究进行总结并展开讨论;另外,对于在数字化气氡观测过程中可能产生干扰的影响因素,分别从自然环境、仪器系统、人为干扰不同方面进行分析归纳。

     

    Abstract: Radon is one of the sensitive components of the underground fluid for earthquake prediction. Digital gas Radon observation has been an important method in seismic monitoring. In recent years, some seismic stations have been able to observe the changes of pre-earthquake anomalies, post-earthquake effects and co-seismic effects of gas Radon data. This paper summarizes and discusses these abnormal changes. In addition, the possible influencing factors in the process of digital gas Radon observation are analyzed and summarized from the aspects of natural environment, instrument system and human interference respectively.

     

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