1) micro-gap model
微隙模型
2) micro pore model
微观孔隙模型
1.
By performing core displacement and micro pore model displacement experiments,the mechanism and changing law of saliferous reservoir parameters were studied.
通过岩心驱替以及砂岩微观孔隙模型驱替实验,研究了高含盐油藏水驱储层参数变化机理和规律。
2.
The water flooding experiment was carried out with the micro pore model made of the real core.
采用真实岩心制作而成的微观孔隙模型进行水驱实验,研究了驱替速率、含盐量、岩心渗透率、注入水性质、驱替孔隙体积倍数等因素对储层参数变化的影响,并且对实验模型进行跟踪摄像,建立了高含盐油藏的动态地质模型。
3) microscopic pore model
微观孔隙模型
1.
Gas-water two-phase flow mechanism in visual microscopic pore model;
可视化微观孔隙模型中气水两相渗流机理
4) sandstone micromodel
砂岩微观孔隙模型
1.
By means of simulation experiments in sandstone micromodels,scaling mechanism and formation damage due to scaling of BaSO 4 and CaCO 3 are studied respectively.
通过砂岩微观孔隙模型模拟实验 ,分别对 Ba SO4和 Ca CO3结垢机理及结垢油层伤害规律进行了研究。
5) micro-axis clearance
微型轴隙
6) pore model
孔隙模型
1.
In order to study the change mechanism of permeability in high - saliferous oil reservoir by waterflooding, the change of it is studied under different displacement rate ,salinity, core permeability, injected water quality,multiple of displacement volume on the basis of experiments in microscopic pore model of core slice.
为了研究高含盐油藏水驱渗透率变化机理,在岩心薄片微观孔隙模型实验的基础上,研究了高含盐油藏水驱储层渗透率在不同驱替速率、含盐量、岩心渗透率、注入水性质、驱替孔隙体积倍数等条件下的变化,并且对驱替过程中孔隙变化的微观图像进行了对比。
2.
The crack growth law of pore models and the damage law of pores and solid media are obtained for different loads and CT observation scales.
为了研究孔隙对岩石力学性能的影响,利用自制的孔隙物理模型,通过单轴压缩和CT扫描实验研究了受载条件下孔隙率对岩石孔隙结构的演化及其对外部物理力学性能的影响,得到了不同加载阶段和不同CT观察尺度下孔隙模型的裂纹扩展规律以及孔隙和固体介质的损伤变化情况。
补充资料:微隙
1.细小的嫌隙。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条