万迪堃, 李师群, 黄保大, 蓝秀英, 贾化周, 董守玉, 张子广. “动水位”异常特征与敏感原因分析[J]. 华北地震科学, 1990, 8(2): 37-46.
引用本文: 万迪堃, 李师群, 黄保大, 蓝秀英, 贾化周, 董守玉, 张子广. “动水位”异常特征与敏感原因分析[J]. 华北地震科学, 1990, 8(2): 37-46.
Wan Dikun, Li Shiqun, Huang Baoda, Lan Xiuying, Jia Huazhou, Dong Shouyu, Zhang ziguang. ANALYSIS ON THE ANOMALOUS CHARACTERISTCS AND SENSITIVE CAUSES OF DYNAMIC GROUNDWATER LEVEL[J]. North China Earthquake Sciences, 1990, 8(2): 37-46.
Citation: Wan Dikun, Li Shiqun, Huang Baoda, Lan Xiuying, Jia Huazhou, Dong Shouyu, Zhang ziguang. ANALYSIS ON THE ANOMALOUS CHARACTERISTCS AND SENSITIVE CAUSES OF DYNAMIC GROUNDWATER LEVEL[J]. North China Earthquake Sciences, 1990, 8(2): 37-46.

“动水位”异常特征与敏感原因分析

ANALYSIS ON THE ANOMALOUS CHARACTERISTCS AND SENSITIVE CAUSES OF DYNAMIC GROUNDWATER LEVEL

  • 摘要: 我国地震地下水动态观测井网建立以来所取得的资料表明,同样是承压水,静水位和动水位的映震能力有明显不同,论文通过大量实例及统计结果说明,动水位的映震能力明显优于静水位,并从理论上探讨了"动水位"映震能力强的原因。

     

    Abstract: The data from China's observational well network of dynamic groundwater associated with earthquake indicate the responses of pressure water, static Water table and dynamic water table to earthquakes are obviously different. IN this paper, a large number of examples and statistical results show that the response of dynamic water table to earthquakes is more superior to that of statics water table and the causes why the response "of dynamic water table" is more superior are discussed theoretically.

     

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