1.
Channel Sand Body Description Method and its Application in Bamianhe Area
八面河地区河道砂体描述方法与应用
2.
Cyclic Water-flooding Technique Research on Sub-sea Distributary Channel Sands
水下分流河道砂体周期注水技术研究
3.
Sandstone reservoirs hold gas are mainly fan-delta under-water channel sand-body.
含气砂层主要是以扇三角州的水下河道砂体为主。
4.
A case study is made for low sinuosity of distributary channel sandbody.
对低弯度分流河道砂体开展了建模实例研究。
5.
Research on the Method for Classifying Internal Structural Units of Distributary Channel Sandbody;
分流河道砂体内部结构单元划分方法研究
6.
The Architecture Research of the Channel Sand in the Horizontal Well of the Xingliu Area
杏六区水平井区块河道砂体内部建筑结构研究
7.
Prediction of channel sand body based on seismic attributes.
基于地震属性特征的河道砂体预测方法
8.
Internal Configuration of Channel Sand Body of Reservoir in Dagang Oilfield
大港油田储集层河道砂体内部构型研究
9.
Study of Fluvial Sandbody Architecture in North 1-2 Area of Saertu Oil Fields;
萨尔图油北一二排区河道砂体内部建筑结构研究
10.
The Architecture of Meandering River Sand Body and Distribution of Remaining Oil of P1 Formation in the Development Area of Northern Saertu;
萨北开发区葡—油组曲流河道砂体建筑结构与剩余油分布
11.
Architectural structure of channel sandbodies in meandering river and remaining oil tapping study in PI2a of South-Two area in Sanan field
萨南油田南二区曲流型分流河道砂体建筑结构及剩余油挖潜
12.
The application of the seismic attribution analysis on the channel sand body architecture
地震属性分析在河道砂体内部构型研究中的应用
13.
Variation features of the polymer absorbing inner distribution channel sands in north Daqing oilfield
大庆油田北一二排西部分流河道砂体层内聚驱吸水剖面变化特征
14.
The subsidiary channels have a thickness in the range 6-12 m.
次要河道砂岩体的厚度为6-12米。
15.
The channel is overlain by siltstone and lenticular beds of limestone.
河道上面覆盖着粉砂岩和石灰岩透晶体。
16.
Distribution and prediction of the thin underwater distributary channel sandbodies in Punan Oilfield
葡南油田薄层河道砂岩体分布规律及预测
17.
Effect of lateral accretion sandbodies of channel sands on the distribution of remaining oil-taking high-sinuosity meandering river of 3 -4 sand groups in upper Ng of Gudao oilfield as exam- ple
河道砂侧积体对剩余油分布的影响——以孤岛油田馆上段3~4砂组高弯度曲流河为例
18.
The source rocks are matured and in the peak stage of oil generation.
侏罗系白垩系发育多套扇三角洲、流河道以及三角洲前缘砂体,是较好的储集砂体。