毛管力,capillary force英语短句,例句大全

毛管力,capillary force
1)capillary force毛管力
1.As the testing time is relatively short, WFT pumping Volume seldom breaks down mud contamination, capillary force in the invaded zone impacts testing pressure data.针对电缆地层测试(WFT)在短时间内抽吸地层流体无法解除侵入带的泥浆污染,泥浆侵入带形成的毛管力对测试压力数据有很大的影响。
2.The effect of capillary force, the distance of converted an injection well to a fault, the thickness of single sandstone body, and alternating production times upon the result of converted injection well are studied through numerical simulation, providing theoretical base for tapping the potentiality of residual oil in low permeability oilfields.应用数值模拟方法研究了毛管力、转抽井到断层的距离、孤立砂体厚度、交替次数等因素对水井转抽效果的影响,为挖掘低渗透油田剩余油潜力提供了理论依据。
3.Based on the measuring standard of rock wettability and using optical projection to measure contact angle of rocks, the experiments on the changing wettability of rock surface by biological enzyme include the changes of rock wettability, capillary force and adhesion work after the act of rock with biological enzyme.根据岩石润湿性的衡量标准,用光学投影法测定岩石接触角,对生物酶改变岩石表面润湿性进行了实验研究,包括生物酶与岩石作用后岩石润湿性的变化、毛管力的变化以及粘附功的变化。
2)capillary pressure毛管力
1.The effect of capillary pressure and water saturation on sand production has been researched through the core flow test in this paper.通过室内岩心流动试验 ,研究了毛管力、含水饱和度对岩石出砂规律的影响。
2.Both NMR spectra and mercury intrusion capillary pressure can be used to characterize pore structures of rock.应用本方法,对6块岩心的多种核磁共振分析数据进行了对比分析,作出了NMR(nuolearmagneticresonance)T2毛管力曲线和孔喉半径分布,并将这些结果与压汞分析的结果作了对比。
3.The capillary pressure and threshold pressure influence the oil and water twophase flow in low permeability oil reservoirs.研究在水湿低渗透油藏中,毛管力对水油两相渗流的影响。
3)capillary pressure毛管压力
1.Review of methods for constructing capillary pressure curve by NMR logging;核磁毛管压力曲线构造方法综述
2.The character of the capillary pressure in Guangli oil field reservoir;广利油田储集层毛管压力特征
3.Fractal dimensions of mercury-ejection capillary pressure curves in Donghe-1 Oilfield;东河1油田退汞毛管压力曲线的分形特征

英文短句/例句

1.On Field Application about Averaging Methods of Capillary Pressure Curves毛管压力曲线平均化方法的矿场应用
2.Application of Micro-tube Pressure Curve Average in SUOTU Oilfield所图油田毛管压力曲线平均化与应用
3.A computation method for reservoir permeability by combining NMR log and capillary pressure data结合NMR和毛管压力资料计算储层渗透率的方法
4.The Seal Characteristics of Capillary Pressure of Direct Argnlaceous Cap Rocks for Natural Gas from Paleozoic in Shanganning Basin陕甘宁盆地上古生界天然气泥质岩直接盖层的毛管压力封闭特征
5.Influence of capillary pressure on fluid flow and production performance in low-permeability oilfields毛管压力对低渗透油藏渗流规律和开发动态的影响
6.In the paper, the technique of drawing a smooth curve of non-reduced or non-increased single-valued function is improved so that the capillary pressure curve can be drawn rationally.本文对非降或非增单值函数光滑曲线的绘制方法进行了改进,从而合理地绘制出毛管压力曲线。
7.Computing oil saturation using capillary pressure data:Case study of well 23 in Suizhong 36-1 oilfield.利用毛管压力资料求原始含油饱和度方法探讨——以绥中36-1油田23井为例
8.dynamic imbibition capillary pressure动力自吸毛细管压力
9.mercury capillary-pressure curve水银毛细管压力曲线
10.imbibition capillary pressure curve自吸毛细管压力曲线
11.capillary pressure withdrawal curve退汞毛细管压力曲线
12.capillary pressure-saturation curve毛细管压力-饱和度关系曲线
13.capillary pressure history毛细管压力随时间变化情况
14.When pulmonary capillary pressure is markedly elevated, pulmonary edema ensues.当肺毛细血管压力明显升高时，就出现肺水肿。
15.Investigation on Pressure Properties of Capillary Ablation Plasma and Jet毛细管消融等离子体及其射流压力特性研究
16.The motivating force of primary migration is the coalition of buoyancy and capillary pressure.油气运移的动力是浮力和毛细管压力的共同作用。
17.pulmonary capillary partial pressure of oxygen肺毛细血管血氧分压
18.Qualitative Analysis by Using a Serially Connected Binary Gas Chromatographic Capillary根据双载气串联毛细管气相色谱系统压力操作参数进行定性分析

相关短句/例句

capillary pressure毛管力
1.The effect of capillary pressure and water saturation on sand production has been researched through the core flow test in this paper.通过室内岩心流动试验 ,研究了毛管力、含水饱和度对岩石出砂规律的影响。
2.Both NMR spectra and mercury intrusion capillary pressure can be used to characterize pore structures of rock.应用本方法,对6块岩心的多种核磁共振分析数据进行了对比分析,作出了NMR(nuolearmagneticresonance)T2毛管力曲线和孔喉半径分布,并将这些结果与压汞分析的结果作了对比。
3.The capillary pressure and threshold pressure influence the oil and water twophase flow in low permeability oil reservoirs.研究在水湿低渗透油藏中,毛管力对水油两相渗流的影响。
3)capillary pressure毛管压力
1.Review of methods for constructing capillary pressure curve by NMR logging;核磁毛管压力曲线构造方法综述
2.The character of the capillary pressure in Guangli oil field reservoir;广利油田储集层毛管压力特征
3.Fractal dimensions of mercury-ejection capillary pressure curves in Donghe-1 Oilfield;东河1油田退汞毛管压力曲线的分形特征
4)capillary force毛细管力
1.The result showed that the fluid flow for the water-wet system is countercurrent at high capillary force.研究结果表明,注入水渗吸体系因毛细管力较高、毛细管力与重力比值较大,其渗吸过程为毛细管力支配下的逆向渗吸。
2.A purely geometric model is built to calculate the difference in surface free energy of fluidic self-assembly system using the capillary forces.建立了一种计算模型 ,用于计算基于毛细管力流体自装配系统表面自由能。
3.Main driving force for migration of separate phase natural gas is buoyancy,and resistance is capillary force.在静水条件下,游离相天然气运移的主要动力是浮力,阻力是毛细管力。
5)capillary power毛细管力
1.Generally speaking, during the seccodary migration of hydrocarbon, capillary power is the resistance of hydrocarbon migration when the rear end curvature radius of the continuous oil (gas) phase is greater than the front end's and is the driving force when the rear end curvature radius is smaller than the front end's because of the change of pore structure.一般认为 ,在油气的二次运移过程中 ,由于孔隙结构的变化 ,当连续油 (气 )相后端曲率半径大于前端时毛细管力是油气运移的阻力 ,而当连续油 (气 )相后端曲率半径小于前端时毛细管力是油气运移的动力 ;毛细管力总是趋向于使非润湿相占据较大的孔隙空间。
2.The water content of attraction and capillary decreased with the increase of the matrix suction, which consisted of attraction and capillary powers.结果表明，非饱和黄土的水分特征曲线可用幂函数关系描述；吸着水含量与毛细管水含量随基质吸力的增大而减小；基质吸力由吸着力和毛细管力形
6)capillary pressure毛细管压力
1.Relationship between NMR T_2 cutoff and capillary pressure.;核磁共振T_2截止值与毛细管压力的关系
2.Relationship among capillary pressure,saturation and phases interfacial area;毛细管压力、饱和度和相界面积间的关系
3.It is more useful to utilize the fractal dimension as a bridge to implement the transformation between capillary pressure .把分维值作为桥梁,实现了毛细管压力曲线和相渗曲线之间的相互转化,这比传统的只能利用毛细管压力曲线求相对渗透率曲线的手段更有优势,从而说明分形理论有可能成为研究岩心孔隙结构的重要手段。