1) reservoir conformance
油层波及系数
2) reservoir coverage
油层波及系数
3) reservoir
油层
1.
Evaluation of reservoir wettability by means of conventional logging data;
基于常规测井资料的油层润湿性评价
2.
An Identification Method of Conventional Log for Low-Resistivity Reservoirs in Jiyang Depression;
济阳坳陷低电阻油层常规测井识别方法
3.
The mud logging properties of the non-sandstone reservoirs between salt beds in Qianjiang Depressed Area;
潜江凹陷盐间非砂岩油层录井特征
4) oil layer
油层
1.
Transmission characteristic of low frequency hydrodynamic oscillation in oil layers;
低频水力振动在油层中的传播特性
2.
The analysis of influence factor about low resistor oil layer in Z oil-field;
Z油田低阻油层影响因素分析
3.
In view of the recognition difficult of the petroleum in in E31、E32、N22 reservoirs in the Qigequan Field, Chaidamu Basin, based on a great quantity of production information, according to the different lithology ,confirmed the recognition criteria of oil layer in different reservoirs by using the convergence between ILd and AC .
针对柴达木盆地七个泉油田E31~N22储层油气识别的难点,在占有大量生产资料的基础上,应用深感应声波时差交汇的方法,按层位、分岩性确定油层识别标准。
5) oil reservoir
油层
1.
Determination of thermal parameters for oil reservoir using well testing data;
利用试井资料确定油层的热物性参数
2.
Calculating oil reservoir saturation by using Logistic cycle;
Logistic旋回计算油层饱和度的方法
3.
The driving pilot test of surface active agent is implemented at the layers V2-5 in the area B125 of Gucheng Oilfields, in which the purposes of injecting tracers are to understand the connection states between injection- production wells, the direction and speed of plane water flowing, and the states of heterogeneity in oil reservoir.
在古城油田B125区V2-5层系进行表面活性剂驱先导试验,注入示踪剂的目的是为了进一步了解注采井间的连通状况、平面水流方向和速度、以及油层非均质性状况。
6) oil zone
油层
1.
Reservoir displaying features and genesis for low resistivity oil zones of Dongpu sag;
东濮凹陷低电阻率油层显示特征及成因
2.
The low levels in cutting show, abnormal showing value of gas logging and oil zone resistivity in Honggang area of Songliao Basin have brought considerable difficulties for distinguishing and evaluating oil and gas zones by using traditional mud logging means.
松辽盆地红岗地区岩屑显示级别低、气测录井异常显示值低和油层电阻率偏低,这种“三低”特征给利用传统录井手段识别与评价油气层造成了很大困难。
7) oil bed
油层
8) oily layer
油层
9) petroleum reservoir
油层
10) reservoir protection
油层保护
1.
Pore-fractured tight reservoir protection in Qingxi oil field;
青西油田裂缝孔隙型致密油层保护
2.
Study and application of reservoir protection technique for Tuo 74 fault block in Shengtuo oilfield.;
胜坨油田坨74断块油层保护技术研究及应用
3.
Reservoir sensibility experiment and reservoir protection technique of Yuedong structure.;
月东构造储层敏感性实验及油层保护技术
补充资料:材料保护 :电化学保护
通过改变极性或移动金属的阳极极化电位达到钝态区来抑制或降低金属结构腐蚀的材料保护技术。从伽法尼电池的两个金属电极来观察﹐腐蚀总是发生在阳极上。阴极保护就是在潮湿的土壤或含有电解质(如盐等)的水液等电解液中﹐利用牺牲阳极(如锌﹑铝等)或外加电流的惰性阳极﹐使被保护的钢铁结构成为这种人为的伽法尼电池中的阴极。在同一腐蚀环境中﹐活性较大的是阳极﹐较小的是阴极﹐例如在海水中﹐锌与低碳钢间如构成电解电池﹐锌就是阳极﹐钢就是阴极﹔但如果钢与不锈钢形成电解电池时﹐钢又变为阳极﹐不锈钢是阴极。所谓阴极﹐实际上是使电解液中的阳离子获得电子而还原的一个电极。因此﹐利用外加直流电源使它获得电子补充﹐也属於阴极保护方法。在不同的腐蚀介质中所需的保护电流密度不一。钢在土壤内﹐约为 0.0001~0.005安/分米3﹐在流动海水中约为0.0003~0.0015安/分米3﹐而在流动淡水中为0.005安/分米3 。阴极保护广泛用於保护地下管道﹑通信或电力电缆﹑闸门﹑船舶和海上平台等以及与土壤或海水等接触面积很大的工件﹐电化学保护与涂装结合则更为经济。城市和大型工厂的地下金属设备可採用这种保护方法﹐但需要注意杂散电流不致影响邻近地下金属设施的加速腐蚀。阳极保护主要用於保护钢﹑不锈钢和鈦等在浓硫酸和磷酸等强介质中的腐蚀。活性-钝性金属在阳极极化时﹐即电流导入而產生电位变化时﹐其极化曲线中有显著的活化﹑钝化和过钝化区(见图 阳极保护原理的极化曲线
)﹐对於这种情况﹐可利用稳压电源将电位控制在钝化区间﹐使腐蚀电流值降到最低限度。
)﹐对於这种情况﹐可利用稳压电源将电位控制在钝化区间﹐使腐蚀电流值降到最低限度。
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