1) waterflooding oil water interface
注入水油水界面
1.
This paper briefly discusses the definition, genesis end classification, proposes the concept of waterflooding oil water interface, indicates that the raising of this interface to the top of the reservoir makes the oil well watered out and stop production in the reservoir, and confirms the mechanism that microstructures influence oil well production.
提出“注入水油水界面”的概念,指出在油层内部油井水淹停产是由于此“界面”上升至油层顶面所引起。
2) oil/water interface
油水界面
1.
Molecular dynamics simulations on the aggregation of AOT at oil/water interface;
油水界面上AOT聚集行为的分子动力学模拟
2.
In this paper research on the oil/water interfacial shear viscosity is reviewed and prospects for the study of oil/water interfaces are also put forward.
界面剪切黏度是表征乳液油水界面膜性质的重要参数之一,界面剪切黏度反映了油/水界面膜的强度。
3) oil-water interface
油水界面
1.
Analysis of dominant factors of the oil-water interface in the oil reservoir of Sanjianfang Formation,Shanshan Oilfield;
鄯善油田三间房组油藏油水界面分布状态的主导因素分析
2.
Adsorption behavior of surfactant in oil-water interface;
表面活性剂在油水界面的吸附行为
3.
Study of the method to extract oil-water interface automatically from MDT data;
基于MDT测试资料的储层油水界面自动提取方法研究
4) oil-water interface
油-水界面
1.
Mass transfer kinetics of PVP across oil-water interface by using micro visualization technique;
在油-水界面上聚乙烯吡咯烷酮传质动力学的微可视化
2.
By analysis of gradient curves about formation pressure,improved method is advanced which can automatically pick up oil-water interface of oil reservoir from gradient curves about formation pressure by the third power of inserting value function and maximum value principle.
经对地层压力梯度线的分析,提出了基于地层压力梯度线上利用三次样条插值函数和最大值原理自动拾取油藏油-水界面的改进方法。
3.
Adsorption properties of soy glycinin adsorbed at the air-water and oil-water interfaces were studied by dynamic drop shape analysis.
采用动态滴形分析法研究了大豆球蛋白在空气-水和油-水界面上的吸附特性,主要检测了大豆球蛋白吸附在空气-水、纯的花生油-水和正十四烷-水界面上的界面张力和膨胀流变特征参数随吸附时间的变化。
5) oil-water contact
油水界面
1.
Determining both oil-water contact and thin interbed by analysing the resistivity log data of horizontal borehole;
利用水平井电阻率测井资料判断油水界面和薄夹层
2.
In recent years, it can be found that there is an obvious difference between the present oil-water contact and the past one by the drilling of new infilling wells in Sanjianfang reservoir; and in the whole, the oil-water contact takes on a new situation that is high in the north and low in the south, high in the west and low in the east.
近期新钻加密井发现三间房组油藏油水界面分布特征与开发初期所认为的情况有明显差别,整体呈北高南低、西高东低特点。
3.
The result shows that the oil-water contact is controlled by the structure,fault,sand distribution,petrophysical property and diagenetic epigenesist and is an irregular dip plane;reserves distribution is well related to the distribution of braided channel micro-facies in the.
结果表明:油水界面受构造、断裂、砂体展布、物性和成岩后生作用等多因素控制,为一不规则的倾斜面;储量分布与扇三角洲平原亚相的辫状水道微相分布具有较好的相关性;辫状水道微相是下一步扩边挖潜的有利目标。
补充资料:注入水净化剂
分子式:
CAS号:
性质:用于除去油田回注水中悬浮物的化学剂。其悬浮物主要包括机械杂质、泥砂、残余油珠。这种水如果直接进行回注,首先会促使细菌繁殖,给细菌提供极好的营养源;油滴和悬浮物能大量吸附加入的杀菌剂和缓蚀剂,使其起不到应有的杀菌、缓蚀、阻垢作用;油滴对某些悬浮物是很好的黏结剂,从而使过滤器很快堵塞或效率降低。因此必须将注入水净化,加净化剂就是一种主要净化方法。净化剂主要包括絮凝剂(如聚丙烯酰胺、部分水解聚丙烯酰胺、聚丙烯酸钠、聚乙烯吡啶盐等)、混凝剂(如聚合氯化铝、聚合硫酸铝、硫酸铁或氢氧化铁等)、助凝剂(如活化硅酸、石灰、纤维素类、聚糖类)、浮选剂(如黄原酸盐、环烷酸、烷基苯磺酸钠等)。
CAS号:
性质:用于除去油田回注水中悬浮物的化学剂。其悬浮物主要包括机械杂质、泥砂、残余油珠。这种水如果直接进行回注,首先会促使细菌繁殖,给细菌提供极好的营养源;油滴和悬浮物能大量吸附加入的杀菌剂和缓蚀剂,使其起不到应有的杀菌、缓蚀、阻垢作用;油滴对某些悬浮物是很好的黏结剂,从而使过滤器很快堵塞或效率降低。因此必须将注入水净化,加净化剂就是一种主要净化方法。净化剂主要包括絮凝剂(如聚丙烯酰胺、部分水解聚丙烯酰胺、聚丙烯酸钠、聚乙烯吡啶盐等)、混凝剂(如聚合氯化铝、聚合硫酸铝、硫酸铁或氢氧化铁等)、助凝剂(如活化硅酸、石灰、纤维素类、聚糖类)、浮选剂(如黄原酸盐、环烷酸、烷基苯磺酸钠等)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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