| 淹没水射流关键参数对天然气水合物沉积物冲蚀体积的影响规律研究 |
| 投稿时间:2019-03-28 修订日期:2019-04-17 点此下载全文 |
| 引用本文:靳成才,陈晨,潘栋彬,等.淹没水射流关键参数对天然气水合物沉积物冲蚀体积的影响规律研究[J].钻探工程,2019,46(5):1-7.JIN Chengcai,CHEN Chen,PAN Dongbin,et al. Influence of key parameters of submerged water jets on the erosion volume of natural gas hydrate sediments[J]. Drilling Engineering, 2019,46(5):1-7. |
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| 基金项目:国家自然科学基金项目(面上项目,重点项目,重大项目)高压低温水射流作用下海底天然气水合物储层破岩过程与机理研究(编号:41672361) |
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| 中文摘要:高压水射流技术具有工作介质来源广泛与环保等优点,能够用于海底天然气水合物储层破碎。本文运用LS-DYNA有限元程序对淹没状态下高压水射流对海洋天然气水合物沉积物破碎过程进行数值模拟,研究了射流速度、喷嘴直径、靶距、入射角度四项关键参数对含水合物沉积物冲蚀体积的影响,得出以下主要结论:含水合物沉积物产生破碎需要满足射流速度大于临界流速;随着射流速度的增加冲蚀体积逐渐增大;喷嘴直径的增加会导致沉积物径向冲蚀体积的增大,从而使总体冲蚀体积增大;靶距的增加会使水射流在水域运动过程中能量损失增大,导致冲蚀体积的减小;在喷嘴入射角度增大过程中冲蚀体积将会先增大后减小最后趋于稳定,当入射角度为10°时冲蚀体积能够达到最大值。 |
| 中文关键词:水射流参数 天然气水合物沉积物 流固耦合 数值模拟 冲蚀体积 |
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| Influence of key parameters of submerged water jets on the erosion volume of natural gas hydrate sediments |
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| Abstract:The high- water jet technology has the superiority of the wide range of working medium and environmental protection, and can be used to break the submarine gas hydrate formations. In this paper, LS-DYNA finite element program is used to simulate the fragmentation process of submarine gas hydrate formations with high-pressure water jet under submerged condition. The effects of four key parameters (jet velocity, nozzle diameter, target distance and incident angle) on the erosion volume of hydrate formations are studied. The following conclusions are drawn: the fragmentation of hydrate sediments needs to meet the requirement that jet velocity is higher than the critical velocity; the erosion volume gradually increases with the increase of jet velocity; the increase of nozzle diameter will lead to the increase of the radial erosion volume of formations, thus increasing the overall erosion volume; the increase of target distance will increase the energy loss of water jet in the process of water movement, leading to the decrease of erosion volume; the erosion volume will increase first and then decrease with the increase of nozzle incidence angle, eventually tending to be stable. When the incident angle is 10°, the erosion volume can reach the maximum value. |
| keywords:Water jet parameters Gas hydrate sediments Fluid-solid coupling Numerical simulation Erosion volume |
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