1.
Surface Liquid Yield Calculation of Rod Pumping Wells Using Dynamometer Cards;
用示功图计算抽油机井井口产液量方法研究
2.
A NEW METHOD AND THE APPLICATION OF PREDICTING CRITICAL LIQUID-CARRYING RATE IN GAS WELL
预测气井临界携液产量新方法及应用
3.
A prediction model on calculation of continuous liquid carrying critical production of directional gas wells
定向气井连续携液临界产量预测模型
4.
CBI+well washing every 45 days in 22 wells (groupⅢ);
第三类22口井注菌液并热水洗井,洗井周期45天;
5.
Two wells blew in Yesterday, but they didn't produce as much as we had expected
两口油井昨天开始喷油了,但产油量不如我们预期的多。
6.
Determination of Safe Window of Drilling Fluid Density for Deepwater Drilling
深水钻井安全钻井液密度窗口确定方法研究
7.
Drilling Fluid Technical Problems in Well Yan106 and Solutions
川口油田延106井实钻难点及钻井液对策
8.
2.9 Mud density required for the well, which is expected to be in the range 1.05 to 1.10 S.G. in 17 1/2 inch hole.
这口井17 1/2英寸井眼的钻井液密度为1.05到1.10 S.G.。
9.
The Research of Secure Drilling Fluid's Window in Hailaer Oilfield;
海拉尔地区安全钻井液密度窗口研究
10.
age-size law of oilwell
油井寿命与产量关系
11.
over-produced wel
超过预定允许产量的井
12.
inflow production relation
井底流压-产量关系
13.
The full scale trial in wells of 4 groups includes: CBI only in 5 wells (groupⅠ);
在正式试验中将区块33口井分为4大类,第一类5口井只注菌液;
14.
A Prediction Model for Drilling Fluid ECD in High Temperature Deep Wells.
高温深井钻井液当量循环密度预测模型
15.
Production Profile Logging Technology Study of Opnehole Fissured Reservoir;
裸眼井稠油裂缝性油藏产液剖面测井技术研究
16.
settled production
井初期自喷产量下降后的平均产量
17.
Research on Artificial Neural Network Realizing for Three-Phase Measurement in Oil Wellhead;
油井井口三相计量技术的神经网络实现研究
18.
An increase in background gas, as the mud weight overbalance gradually decreases.
由于钻井液密度逐渐下降失去平衡,钻井液的含气量上升。