通过微观砂岩模型水驱油实验发现贾敏效应是油田注水开发中不可忽视的阻力。
By the laboratory work of real sandstone micro-models, the resistance of Jamin effect should not be ignored.
通过开展模拟水驱油实验研究岩石地化热解分析参数随油层含水上升的变化规律。
This paper analyzes the rules of rock geochemical pyrolysis analysis parameters changing with reservoir water cut increase through simulated water flooding experiment.
模拟驱油实验表明,在水驱原油效率58.65%的基础上可再提高驱油效率15.75% (OOIP)。
The stimulating displacement experiments show that, based on water flooding efficiency 58.65%, the oil displacement efficiency can increase 15.75% (OOIP).
本文采用天然岩心串联组合方法,进行了平面非均质性对水驱油效果的影响实验研究。
This paper puts up that affecting experiment opposing water driving oil impact of storing floor horizontal heterogeneity character by means of savageness rock core in series combination.
利用油藏工程基本知识和基本方法,对稠油油藏水驱和蒸汽驱的两组驱油效率室内实验结果进行了分析。
This paper analyzed laboratory experiment results of oil displacement efficiencies of both water and steam drive in heavy oil reservoir by using basic knowledge and method of reservoir engineering.
在模拟大庆油田地层条件下,进行了水驱以及碱-表面活性剂-聚合物(asp)三元复合体系驱油效率的实验研究。
An experimental study was conducted about recovery efficiency on Brine flooding and Alkaline, Surfactant, Polyacrylamide flooding (ASP) in modeling Daqing Oil Field stratum.
实验结果表明,M驱油剂可大幅度提高水驱原油采收率。
The experimental results show that the displacing agent m can greatly enhance oil recovery.
岩心驱油降压模拟实验表明,表面活性剂体系驱替0.5倍孔隙体积(PV),后续水驱替压力下降48%左右。
Core simulation experiments showed that the pressure of water drive could decrease by 48% after surfactant drive (0.5 PV).
油田水驱剩余油微观分布的实验室模拟是当前研究的热点问题。
The simulation of microscopic distribution of remaining oil in water drive field is one of the main focuses in recent research.
通过实验分析了热水驱、蒸汽驱对驱油效率的影响,并与常规水驱进行对比。
Through experiments, oil displacement efficiencies of hot-water flooding and steam flooding have been analyzed and compared with conventional water flooding.
室内驱油实验结果表明,泡沫复合体系的驱油效率比水驱提高30 % (OOIP)以上。
Laboratory displacement experiment result shows that the displacement efficiency of foam complex system is 30% (OOIP) higher than water displacement. This provides a theoretica…
在仿真网络玻璃模型中进行的微生物驱油实验中观察到,菌体优先进入孔隙壁、油、水三相交界处。
The microbial oil_displacement experiments were programmed in emulation network models. It could be seen that bacteria were prior to entering into the three-phase boundary of pore wall, oil and water.
在仿真网络玻璃模型中进行的微生物驱油实验中观察到,菌体优先进入孔隙壁、油、水三相交界处。
The microbial oil_displacement experiments were programmed in emulation network models. It could be seen that bacteria were prior to entering into the three-phase boundary of pore wall, oil and water.
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