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天然气水合物钻采一体化模拟实验系统及降压法开采初步实验 被引量:14
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作者 刘昌岭 李彦龙 +4 位作者 刘乐乐 胡高伟 陈强 吴能友 孟庆国 《天然气工业》 EI CAS CSCD 北大核心 2019年第6期165-172,共8页
现有的天然气水合物(以下简称水合物)开采技术实验研究通常在较小尺寸的模拟实验装置中进行,由于反应釜样品尺寸较小,导致明显的边界效应且实验结果难以在现场中得到应用,因而研发大尺寸水合物综合开采实验系统刻不容缓。为此,针对我国... 现有的天然气水合物(以下简称水合物)开采技术实验研究通常在较小尺寸的模拟实验装置中进行,由于反应釜样品尺寸较小,导致明显的边界效应且实验结果难以在现场中得到应用,因而研发大尺寸水合物综合开采实验系统刻不容缓。为此,针对我国南海神狐海域泥质粉砂型水合物储层,基于降压法开采思路和工艺流程,研发了一套水合物钻、采一体化模拟实验系统,主要包括主体高压装置、钻采一体化、气液供给、围压加载、回压控制、气液固分离及在线监测、温度控制、数据测控与后处理等模块;利用该系统进行了冰点附近CO2水合物初步开采模拟实验;基于实验结果建立了数据获取及分析的基本流程,初步获得了在降压法开采CO2水合物过程中储层的温度、压力场变化以及产气、产水规律。实验结果表明:①该实验系统可模拟实际地质条件制备接近海洋水合物储层的样品,通过电阻层析成像技术实时监测水合物成藏与分布情况;②该实验系统还可模拟钻井、降压开采工艺与过程,实时监测出砂与管道流动等过程中产气量、产水量、产砂量、温度、压力等多个物理参数的变化情况,实现试采全过程的实验模拟。结论认为:①在出口压力一定的情况下,CO2水合物的产气、产水速率具有很大的波动性;②CO2水合物分解过程中储层温度分布不均匀,最大的温度降幅为5℃,表明水合物分解呈现出非均一性与随机性。 展开更多
关键词 天然气水合物 模拟实验系统 钻采一体化 实时监测 降压法开采 CO2水合物 产出规律 电阻层析成像
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Quick determination of gas pressure before uncovering coal in cross-cuts and shafts 被引量:22
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作者 JIANG Cheng-lin WANG Chen LI Xiao-wei CHEN Yu-jia XIE Qing-xue LIU Ying TANG Jun YANG Fei-long WANG Fa-kai DENG Su-hua ZHANG Chao-jie CHENG Song-li LV Shu-wen 《Journal of China University of Mining and Technology》 EI 2008年第4期494-499,共6页
The determination of gas pressure before uncovering coal in cross-cuts and in shafts is one of the important steps in pre- dicting coal and gas outbursts. However, the time spent for testing gas pressure is, at presen... The determination of gas pressure before uncovering coal in cross-cuts and in shafts is one of the important steps in pre- dicting coal and gas outbursts. However, the time spent for testing gas pressure is, at present, very long, seriously affecting the ap- plication of outburst prediction techniques in opening coal seams in cross-cuts and shafts. In order to reduce the time needed in gas pressure tests and to improve the accuracy of tests, we analyzed the process of gas pressure tests and examined the effect of the length of boreholes in coal seams in tests. The result shows that 1) the shorter the borehole, the easier the real pressure value of gas can be obtained and 2) the main factors affecting the time spent in gas pressure tests are the length of the borehole in coal seams, the gas emission time after the borehole has been formed and the quality of the borehole-sealing. The longer the length of the bore- hole, the longer the gas emission time and the larger the pressure-relief circle formed around the borehole, the longer the time needed for pressure tests. By controlling the length of the borehole in a test case in the Huainan mining area, and adopting a quick sealing technique using a sticky liquid method, the sealing quality was clearly improved and the gas emission time as well as the amount of gas discharged greatly decreased. Before the method described, the time required for the gas pressure to increase during the pressure test process, was more than 10 days. With our new method the required time is only 5 hours. In addition, the accuracy of the gas pressure test is greatly improved. 展开更多
关键词 gas pressure sticky liquid sealing quick test cross-cut SHAFT
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