湍流是气井生产中的一个普遍现象。
Turbulence is a usual phenomenon observed in gas well production.
这两处天然气气井每年的的价值达到四十亿美元。
对气井的产能进行了分析。
气井出砂是一个带有普遍性的复杂问题。
Sand production of the gas well is a universal and complex problem.
对油气井生产数据进行零产量预设处理。
The zero production of the oil and gas well production data are addressed default.
因此,凝析气井试井分析有显著的特殊性。
So the well test analysis of condensate gas Wells is different from other Wells.
液态二氧化碳还用于油井和气井以增加开采。
Liquid carbon dioxide is also used to increase recovery from oil and gas Wells.
具有特殊用途的负效油气井并不一定要废弃;
The special well with negative benefit may be not abandoned.
通过采气曲线分析制定了气井合理的配产原则。
The reasonable probation plan is made by analysis gas productivity curve.
测算油气井开采过程中逸散的天然气量是一个难题。
Measuring the amount of natural gas that is leaking during drilling is one challenge.
随着气井地层压力的下降,其无阻流量相应降低。
Open flow potential will drop down with decline of formation pressure in a gas well.
试井确定的无阻流量是气井产能建设的重要依据。
The absolute open flow potential predicted from testing is the basis of gas well producing.
为油气井合理开发和制定增产措施提供参考依据。
Those can pave the way for reasonable development and increase p…
特大天然气井喷;
为油气井合理开发和制定增产措施提供参考依据。
是否存在着通过不稳定的气井试井来确定气井产能的方法呢?
Is there any method, which ascertain gas well productivity via unstable gas well test?
由于大部分气井已经开始产水,有些气藏气井甚至水淹关井。
Because many gas Wells began to produce water, even stopped.
在油气井中,油层套管内压力变化是最普遍、最常见的一种现象。
It is a most popular and common occurrence that pressure changes in production casing.
浅层气井日产气量相对低于深部气井,日产水量较大,生产压差大;
The shallow gas wells have lower production than the deep wells, and have large water production.
通过室内实验,研究了气井水化物生成的温度、 压力界限和破坏水合物生成条件。
To this problem, the forming mechanism and rules of gas well hydrate were studied.
在深井、超深井钻井过程中,套管磨损有可能导致套管封隔失效和油气井的早期报废。
In deep drilling process, casing wear is the problem that cannot be ignored.
在深井、超深井钻井过程中,套管磨损有可能导致套管封隔失效和油气井的早期报废。
In deep drilling process, casing wear is the problem that cannot be ignored.
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