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井下综合观测技术发展现状

Current Situation of Borehole Multi-component Observation Technology

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【作者】 董云开李宏

【Author】 Dong Yunkai;Li Hong;Key Laboratory of Crustal Dynamics Institute of Crustal Dynamics, CEA;

【机构】 中国地震局地壳应力研究所,地壳动力学重点实验室

【摘要】 21世纪以来,井下观测以日、美等国为首迅速进入"深钻井,多分量,宽频带"的发展时期,我国也紧随其后开始了井下综合观测技术的研究。本文介绍了10年来井下综合观测技术在世界各国大陆、大洋科学钻探工程中的应用,展示了各国井下综合观测技术上的成果,并分析比较了各种技术的特点,最后对深井高温高压环境、多测项集成技术和井下安装检测工艺等关键问题进行了分析和总结。在我国,井下综合观测仍属于技术创新项目,虽然第一批井下综合观测系统已成功研制出来,并在500m以内的钻孔中进行了小规模的实验,但成功经验较少,与技术领先的发达国家相比仍有不小的差距。

【Abstract】 In the 21st Century, led by the United States, Japan and other countries, borehole observation is entering a new high-speed development period with the characteristics of deep borehole, multi-component and broadband. In this paper, we introduced the progresses of borehole multi-component observation in continental and ocean scientific drilling programs among the world nations in the past ten years. Then, we presented and analyzed the technological achievements of borehole multi-component observation in the United States, Japan and Germany are presented. Finally, some key problems about high temperature and high pressure environment in deep boreholes, multi-component integrated technology, and instruments deployment and maintenance in boreholes are discussed. Currently, in China, the development of borehole multi-component observation is still in the beginning stage. Although some new instruments have been developed and deployed in some boreholes less than 500m, there is still a gap in technological level and experience between China and other developed countries.

【基金】 国家科技支撑计划项目(2012BAK19B03);中央级公益性科研院所基本科研业务专项基金资助项目(ZDJ 2011-03);地震行业专项(201408006)
  • 【文献出处】 震灾防御技术 ,Technology for Earthquake Disaster Prevention , 编辑部邮箱 ,2014年01期
  • 【分类号】P315.7
  • 【被引频次】9
  • 【下载频次】151
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