2) oilfield with high water cut
高含水油田
1.
Prediction of fluvial-facies reservoirs using a technique of seismic frequency demultiplication: a case of adjusting development plan for an offshore oilfield with high water cut based on fine reservoir prediction;
利用地震分频处理技术预测河流相储层——基于精细储层预测调整海上高含水油田开发方案实例
2.
The reservoir geophysics techniques are proposed to enhance the prediction accuracy of channel edge and the thickness of single sand body to meet the requirement for development of oilfield with high water cut.
根据油田开发的需要,在高含水油田有必要开展油藏地球物理技术研究,横向上要精确识别和预测对剩余油富集具有遮挡作用的小断层、微幅度构造、砂体边界和岩性隔挡(如废弃河道),纵向上要精细预测控制剩余油丰度的砂体厚度和储层物性参数,重点解决河道边界预测和薄互层储层单砂体厚度预测精度问题。
3) high water cut oil field
高含水油田
1.
Evaluation method and its application in developing high water cut oil field;
高含水油田开发效果评价方法及应用研究
4) ultra-high water cut stage
特高含水期
1.
Study on improving development performance in ultra-high water cut stage of Yingtai Oil Field;
英台油田特高含水期提高开发水平研究
2.
Determining the development potential of reservoirs at ultra-high water cut stage using comprehensive fuzzy analytical hierarchy evaluation method
利用多层次模糊综合评判方法定量预测特高含水期油藏潜力
3.
Sabei development area has entered ultra-high water cut stage.
萨北开发区已进入特高含水期采油阶段,选取含水最高且水驱开发矛盾较为突出的北三区东部进行注采系统调整,探索特高含水期改善开发效果的新途径,这也是萨北开发区进入特高含水期后首次开展的大规模水驱调整。
5) extra high water cut stage
特高含水期
1.
Residual oil distribution and reconciliation for delta front rhythm zone in extra high water cut stage;
三角洲前缘韵律层特高含水期剩余油分布及调整
2.
The steady production lies mainly in the deep knowing or re knowing,for the residual oil,in the Extra high water cut stage oilfield.
濮城油田濮5 3断块油藏已经进入特高含水期 ,油藏产量递减大 ,含水上升快 ,注采系统适应性差。
6) extra-high water cut stage
特高含水期
1.
Origin and distribution of remaining oil in sandstone oil reservoir at extra-high water cut stage with the transitional fades sandstone oil reservoir——taking Lufeng 13-1 Oilfield, Pearl Mouth Basin as an example;
海陆过渡相砂岩油藏特高含水期剩余油成因及分布——以珠江口盆地陆丰13-1油田为例
2.
Development prospect analysis of Lamadian oilfield at extra-high water cut stage;
喇嘛甸油田特高含水期开发形势分析
3.
After entering extra-high water cut stage, we should properly cont.
实验结果表明:对均质油层,较小的注入孔隙体积倍数可获得较高的采收率,当进入特高含水期后,应适当控制注水,如果注水强度过高,当注入孔隙体积倍数达到一定程度时则出现无效循环;对非均质厚油层,注入孔隙体积倍数较低时层内则出现无效循环通道,二类油层、三类油层、分流河道在注入孔隙体积倍数分别为0。
补充资料:北极斜坡油田(见阿拉斯加北坡油田)
北极斜坡油田(见阿拉斯加北坡油田)
Arctic Slope Oil Field
北极斜坡油田阿拉斯加北坡油田。(Aretie Slope 011 Field)见
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