On the condition of a larger pipe inclination Angle, the distribution of liquid slug lengths was more concentrated in a smaller range.
在管线下倾角较大的情况下,液塞长度分布集中在较小的范围内。
By statistical means, the liquid slug length distribution was studied along the (vertical) pipe at different gas and liquid superficial velocities.
利用统计方法研究了在垂直上升管内不同位置以及不同气液表观速度下的液弹长度分布。
The establishing reason, design basis, principle and constitution as well as technological process of the liquid slug catchers are introduced in the paper.
文章介绍了液体段塞流捕集器的设置理由、设计依据、原理与构成以及工艺流程等。
Through the statistical analysis of the test results, it was found that we could obtain the liquid slug frequency from the fluctuation of the slug liquid holdup.
通过对试验结果的统计分析可以得出:①可以利用段塞流持液率的波动情况来确定液塞频率。
The fluctuation characteristics of liquid slug length was discovered by using the statistics theory and fractal theory to analyze the time series of liquid slug length.
利用统计理论与分形理论分析液塞长度时间序列来揭示液塞长度波动特性。
Based on the flow mechanism and performance of gas liquid two phase plug flow in oil gas gathering line, a slug unit are divided into both gas slug region with liquid film and liquid slug region.
针对油气集输管线中气液两相团状流的流动机理和特点,将每一段塞单元划分为带液层的气塞区和液塞区两个区域。
In the experiment, nuclear boiling, the convergence and break up of liquid-plug and vapor-slug were observed.
实验中观察到核态沸腾、汽液塞的聚合、破碎以及振荡等主要现象。
The model is an effective method, which can be used for pressure drop of oil gas water three phase vertical upwards slug flow in which the continuous liquid phase is water phase.
本模型是计算垂直油-气-水三相弹状流中液相的连续相为水相时的压力降的有效方法。
Based on analysis of flow mechanism, a hydrodynamic model of slug flow in vertical pipes was developed considering the variable thickness of liquid film.
基于流动机理的分析建立了塞状流参数预测模型;模型中考虑了液膜的厚度变化。
Slug flow is one important flow patten for upward gas-liquid two-phase flow in vertical tube.
弹状流是垂直管内气液两相上升流中的一种重要流型。
Through the observation of the fluctuation of the liquid level and pressure in the slug catcher, the optimum size of slug catcher under certain conditions can be determined.
通过观察捕集器内的液位和压力波动情况,从而确定一定生产条件下捕集器的最优结构尺寸。
Theliquid-slug frequency increase by the increase of the superficial liquid velocity.
随着折算水速的增加,液弹的长度增加;
Theliquid-slug frequency increase by the increase of the superficial liquid velocity.
随着折算水速的增加,液弹的长度增加;
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