含水合物油包水管道输送体系压力波速研究

邱伊婕; 敬加强; 孔祥伟; 敬佩瑜

doi:10.3879/j.issn.1000-0887.2014.10.010

含水合物油包水管道输送体系压力波速研究

doi: 10.3879/j.issn.1000-0887.2014.10.010

¹油气藏地质及开发工程国家重点实验室(西南石油大学), 成都 610500;²西南石油大学油气消防四川省重点实验室, 成都 610500;³西南石油大学石油与天然气工程学院, 成都 610500

基金项目: 国家自然科学基金（面上项目）“稠油流动边界层在水基泡沫作用下的阻力特性研究”（51074136）；高等学校博士点基金“稠油掺水流动粘度测定及压降预测研究”（20115121110004）

详细信息

作者简介:
邱伊婕（1987—），女，河南洛阳人，博士生（通讯作者. E-mail: qiuyijie1987@163.com）.

中图分类号: O352
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- 被引次数: 0
出版历程
- 收稿日期: 2014-04-02
- 修回日期: 2014-09-07
- 刊出日期: 2014-10-15

Effects of Gas Hydrate Phase Transition on the Pressure Wave Velocity of Water-Oil Emulsion Flow in Pipeline Transportation Systems

¹State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation(Southwest Petroleum University), Chengdu 610500, P.R.China;²Province Key Laboratory of Oil and Gas Fire Protection, Southwest Petroleum University,Chengdu 610500, P.R.China;³School of Petroleum Engineering, Southwest Petroleum University, Chengdu 610500, P.R.China

Funds: The National Natural Science Foundation of China(General Program)(51074136)

摘要

摘要: 考虑水合物的相变、油相的压缩性、频率、虚拟质量力及体系的温度和压力的影响，建立了含水合物油包水体系的压力波速方程.研究结果表明，输送过程中水合物对体系的压力波速影响很大，在水合物分解区域，气体的出现使体系的压缩性大幅增加，压力波速急速降低；反之，在水合物生成区域，体系的压缩性减小，压力波速增大.随油水比、管径、温度的减小，压力波速均呈现减小的趋势；随压力、油相密度增加，压力波速呈现增大趋势；压力及温度通过影响水合物的分解速度，对体系压力波速产生影响.
- 水合物 /
- 油包水 /
- 压力波速 /
- 水合物分解 /
- 管道输送
Abstract: The pressure wave velocity equation for water-oil emulsion flow with gas hydrate in pipeline transportation systems was established in view of gas hydrate phase transition, compressibility of oil phase, influence of angular frequency, virtual mass force and system temperature and pressure. The results show that the gas hydrate has great influences on the pressure wave velocity of the water-oil system during pipeline transportation. In the gas hydrate decomposition region, the emergence of gas increases the compressibility of the system significantly. As a result, the pressure wave velocity falls rapidly. In the gas hydrate formation region, the compressibility of the system decreases, while the pressure wave velocity rises on the contrary. The pressure, temperature, oil-water ratio, density of oil phase, and pipe diameter all have distinct impact on the pressure wave velocity. The pressure wave velocity shows a falling tendency with the decrease of oil-water ratio, pipe diameter and temperature. A rising tendency of the pressure wave velocity occurs with the increase of pressure and density of oil phase. The pressure and temperature have effects on the hydrate decomposition rate, in turn influence the pressure wave velocity.
- gas hydrate /
- water-oil emulsion /
- pressure wave velocity /
- hydrate decomposition /
- pipeline transportation

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参考文献(16)

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