固体颗粒对固体流化生产过程井筒参数的影响

Q4 Engineering

Recent Patents on Mechanical Engineering Pub Date : 2022-06-22 DOI:10.2174/2212797615666220622092646

Liang Tang, Yang Liu

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引用次数: 0

摘要

为了有效开发水合物储层，针对目前水合物储层勘探过程中出砂量大的问题，结合固体流化试井采油方法。建立气液固三相流动模型，考虑水合物分解。分析了不同出砂速率条件下井筒压力、气体积分数、液体积分数、温度及井筒水合物分解速率等参数的变化规律。结果表明:在固体流化试井和生产过程中，随着出砂速率的增大，井筒压力升高，气体积分数下降，液体积分数下降，井筒温度不变;此外，出砂速率的增加也会导致水合物开始分解的位置延迟。随着水合物饱和度的降低，井筒压力升高，气体体积分数升高，固体体积分数升高，水合物分解速率下降。

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Influence of Solid Particles on Wellbore Parameters in Solid Fluidization Production Process

In order to efficiently exploit the hydrate reservoir, based on the problem of large amount of sand production in the current hydrate reservoir exploration process, combined with the solid fluidization well testing and production method. A gas-liquid-solid three-phase flow model is established and hydrate decomposition is taken into consideration. The changes in parameters of wellbore pressure, gas volume fraction, liquid volume fraction, temperature and the decomposition rates of wellbore hydrate under the conditions of different rates of sand production are analyzed. The results show that with the increasing rate of sand production during the solid fluidization well testing and production, pressure of the wellbore is lifted, gas volume fraction declines, liquid volume fraction declines, and temperature of the wellbore does not change. Moreover, increasing rate of sand production also leads to the delay of the position where hydrate begins to decompose. With the decrease of hydrate saturation, pressure of the wellbore goes up, gas volume fraction is lifted, solid volume fraction rises, and decomposition rate of hydrate declines.

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来源期刊

Recent Patents on Mechanical Engineering Engineering-Mechanical Engineering

CiteScore

0.80

自引率

0.00%

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