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天津王3井开采引起的水化学测项变化机理的探讨
引用本文:马建英,刘学领,邵永新,路鹏. 天津王3井开采引起的水化学测项变化机理的探讨[J]. 地震, 2008, 28(2): 131-138
作者姓名:马建英  刘学领  邵永新  路鹏
作者单位:天津市地震局,天津,300201;宝坻地震台,天津,300180;防灾科技学院,河北,三河,065201
摘    要:地下热水的大量开采, 对水化学观测已产生严重的影响。 在开采的初期, 水化学观测受其影响并不明显, 而随开采时间的延续影响会越来越显著。 地下水的压力、 温度在这一变化过程中占主导地位, 所以在水化学观测过程中, 对井孔状态的监测至关重要。 该文试从地下水动力条件和热动力条件两方面对其影响机理进行了初步探讨。

关 键 词:水化学观测  异常变化机理  构造背景  王3井
文章编号:1000-3274(2008)02-0131-08
收稿时间:2007-09-05
修稿时间:2007-09-05

Discussion on variation mechanism of water chemistry observation items due to mining in Wang3 well in Tianjin
MA Jian-ying,LIU Xue-ling,SHAO Yong-xin,LU Peng. Discussion on variation mechanism of water chemistry observation items due to mining in Wang3 well in Tianjin[J]. China Earthguake Engineering Journal, 2008, 28(2): 131-138
Authors:MA Jian-ying  LIU Xue-ling  SHAO Yong-xin  LU Peng
Affiliation:1. Earthquake Administration Of Tianjin Municipality, Tianjin 300201;
2. Baodi Seismostation, Earthquake Administration of Tianjin Municipality, Tianjin 300180;
3. Institute of Disaster-Prevention Science and Technology, Yanjiao 065201, China
Abstract:With the large-scale mining of geothermal water, it has made great influence on the chemical observation of underground water. This paper aims at preliminary discussion on the mechanism from two aspects, which may cause the influence: underground hydrodynamic condition and thermal-dynamical condition. On the initial period of mining, it was not obvious. The longer the mining continues, the more obvious the influence will cause. The underground water's pressure and temperature plays a dominant role on that variation process, so it is crucial to monitor well's situation on the water's chemical observation.
Keywords:Water chemistry observation  Anomaly variation mechanism  Structure background  Wang3 well
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