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气体水合物生成实验过程动态监测:一种新的ERT方法及其效果分析
引用本文:刘洋,陈强,邹长春,赵金环,彭诚,孙建业,刘昌岭,伍操为. 气体水合物生成实验过程动态监测:一种新的ERT方法及其效果分析[J]. 现代地质, 2022, 36(1): 193-201. DOI: 10.19657/j.geoscience.1000-8527.2021.103
作者姓名:刘洋  陈强  邹长春  赵金环  彭诚  孙建业  刘昌岭  伍操为
作者单位:1. 中国地质大学(北京) 地球物理与信息技术学院,北京 1000832. 青岛海洋科学与技术试点国家实验室海洋矿产资源评价与探测技术功能实验室, 山东 青岛 2660713. 青岛海洋地质研究所自然资源部天然气水合物重点实验室, 山东 青岛 266071
基金项目:山东省自然科学基金(重点项目)(ZR2020KE026);;自然资源部中国地质调查局地质调查项目(DD20190231);;广东省重点领域研发计划“海洋高端装备制造及资源保护与利用”重点专项(2020B111103003);
摘    要:现阶段适用于天然气水合物资源开采过程获得其空间分布变化的现场监测技术仍不完善.以电阻率层析成像(ERT)技术为基础,研发一套新的ERT阵列(由两组平行的垂向电极组合而成,每组阵列有24个环形电极)应用于水合物储层动态变化监测模拟实验.通过开展物理模拟实验,采用新的E RT方法对水合物生成过程进行了动态监测,并分析了动态...

关 键 词:天然气水合物  电阻率层析成像  物理实验模拟  动态监测
收稿时间:2021-08-11
修稿时间:2021-11-21

Experimental Dynamic Monitoring of Gas Hydrate Formation: A New ERT Method and Its Effectiveness Analysis
LIU Yang,CHEN Qiang,ZOU Changchun,ZHAO Jinhuan,PENG Cheng,SUN Jianye,LIU Changling,WU Caowei. Experimental Dynamic Monitoring of Gas Hydrate Formation: A New ERT Method and Its Effectiveness Analysis[J]. Geoscience of Geosciences, 2022, 36(1): 193-201. DOI: 10.19657/j.geoscience.1000-8527.2021.103
Authors:LIU Yang  CHEN Qiang  ZOU Changchun  ZHAO Jinhuan  PENG Cheng  SUN Jianye  LIU Changling  WU Caowei
Affiliation:1. School of Geophysics and Information Technology, China University of Geosciences, Beijing 100083, China2. Laboratory for Marine Mineral Resources, Pilot National Laboratory for Marine Science and Technology-Qingdao,Qingdao, Shandong 266071, China3. Key Laboratory of Gas Hydrate, Ministry of Natural Resources,Qingdao Institute of Marine Geology, China Geological Survey, Qingdao, Shandong 266071, China
Abstract:At present, on-site monitoring techniques suitable for determining spatial changes in hydrate formation and dissociation for resource exploitation is still imperfect. The new ERT array comprises two sets of parallel vertical electrodes, each with 24 electrodes. Through conducting physical simulation experiment, the new ERT method is used to monitor the hydrate formation process, and the application effectiveness of the dynamic monitoring method is analyzed. Based on statistical analysis of the physical simulation data, the standard deviation is below 5% for 92% of the data, which supports that the experimental device can obtain high-quality electrical data. Through the simulation experiment of high-resistivity medium, it is found that temperature and pressure changes have little influence on the ERT monitoring results. The imaging results show that the sediment resistivity saturated with 3.5% NaCl solution is about 1 Ω·m, which is basically equal to that calculated by the Archie’s formula. The applicability of ERT monitoring method is verified. The new ERT method effectively monitors the resistivity change in hydrate formation. The average resistivity increases from 0.95 to 1.95 Ω·m with the hydrate formation, and the “climbing effect” is observed. This supports that the approach is effective in hydrate monitoring, and facilitates dynamic monitoring of the spatial hydrate-saturation distribution. The results provide experimental and theoretical support for further research on hydrate formation and dissociation in sediments, and provide reference for the development of field hydrate monitoring technology.
Keywords:gas hydrate  electrical resistivity tomography  physical experiment simulation  dynamic monitoring  
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