气举可分为连续气举和间歇气举两种方式。
Continuous gas lift and intermittent gas lift gas lift can be divided into two ways.
气举可分为连续气举和间歇气举两种方式。
Gas lift can be divided into continuous gas lift and intermittent gas lift in two ways.
为此,本文建立了一套深井氮气连续气举工艺设计方法。
Therefore, this paper design the gas lift technology method fitted for deep wells using nitrogen.
对那些井底压力和产能高的井,通常采用连续气举生产;
Bottomhole pressure and high capacity wells, usually continuous gas lift production;
它是连续气举采油最有效的接替技术,技术的关键是对柱塞运动的控制。
Plunger lift is a most efficient substituted technique to successive gas lift production. The key of the technique is control to the motion of plunger.
本文将隆32井采用连续气举卸载与单管球塞气举卸载过程进行了对比分析。
The study completes the contrastive analysis of Long32 continuous gas lift and single string pig lift unloading process.
该理论的提出为连续气举采油工作理论和技术的深入研究奠定了一定的理论基础。
Presentation of the theory lays a theoretical foundation of continuous gas-lift theory and techniques.
将连续气举工艺设计与射流泵工艺设计结合起来,并应用节点分析方法建立了一种新组合工艺设计方法。
Combine technics approach of continuous gas lift and jet pump, and what's more, apply node analysis to establish new processing approach.
文章提出了连续气举采油中的能量交换理论、能量交换系数和能量损失分配系数的概念,并给出了相应的计算公式。
This paper, for the first time, presents energy exchange theory, energy exchange coefficient and energy loss distribution coefficient, and derives formulas respectively.
研发的工艺设计软件除了可以进行气体加速泵工艺设计之外,也能进行连续气举工艺设计,并可以计算气体加速泵动态。
It cannot only provide the technical design method for gas lift jet pump and continuous gas lift, but also makes dynamic analysis for it.
为连续气举现场应用处理设备的选择以及气举稳定性分析提供了理论依据,并为单管球塞气举的现场应用提供指导性意见。
It may provide theory gists to design handling equipment and gas-lift stability analysis, and offer guiding opinions for field practice of single string pig lift.
以提高气举采油系统效率为出发点,从理论研究方面深入认识了连续气举卸载过程,通过对模拟结果的现场应用验证了其可靠性。
In the purpose of improving the efficiency of gas lift system, it is studied well for the continue gas lift unloading in theory, and the reliabilities of results are validated through the practices.
以提高气举采油系统效率为出发点,从理论研究方面深入认识了连续气举卸载过程,通过对模拟结果的现场应用验证了其可靠性。
In the purpose of improving the efficiency of gas lift system, it is studied well for the continue gas lift unloading in theory, and the reliabilities of results are validated through the practices.
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