The slim tube test may be the most accurate method and can achieve duplicating results to determine the minimum miscibility pressure.
细管实验是确定混相压力最准确并能实现具有重复性结果的实验方法。
The experiment is conducted to test the flowing characteristics of the foam fluid in porous media injected by the long slim tube model.
通过长细管模型进行了注入泡沫流体在孔隙介质中的流动试验。
The study include conventional reservoir fluid PVT tests, swelling tests, multiple contact tests, slim tube and long core-flooding experiments.
这些研究包括油藏流体的普通PVT测试、加气膨胀、多次接触实验、细管和长岩心驱替实验。
Based on simulate reservoir formation conditions of Huan 26 block, study the effect of CO2 flooding by using slim tube experiment and determine the MMP of CO2 and the formation oil.
在模拟欢26块油藏地层条件下,利用细管实验研究了CO2驱油效果,并测定地层油与CO2的最小混相压力。
On the basis of phase behavior simulation there develops slim tube simulation for case reservoir, and obtains a minimum miscible pressure the same as that of multiple-contact processes.
在相态拟合基础上对实例油藏进行细管模拟,模拟得到最小混相压力值。
Study on interfacial tension, composition, density, viscosity and saturation of gas pha - se and liquid phase front in the slim tube under various injection pressures and injection rate.
分别研究了不同注入压力和注入气量下,细管中注气混相驱前缘和过渡带中气液两相的界面张力、组成、密度、粘度及饱和度的变化情况。
Obtained the minimum miscible pressure according to slim-tube test.
用细管实验确定气驱最小混相压力。
Obtained the minimum miscible pressure according to slim-tube test.
用细管实验确定气驱最小混相压力。
应用推荐