Study of the Performance of a New Kind of Downhole Gas-Liquid Separation with High Gas Content

Fancheng Meng, Shi-ying Shi, Naiqing Ma
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引用次数: 1

Abstract

In the downhole, gas separation is crucial for the Electrical Submergible Pumps’ normal operation. This paper presents a new type of downhole gas-liquid separator (DGLS) and studies its separation performance in experiments that interests the oil industry. Laboratory results show that the pressure drop in the DGLS is rather small and that the gas-liquid separation in the DGLS can be seen as an incompressible flow. When the split ratio equals the gas content at the inlet, complete gas-liquid separation occurs. In addition, as the liquid density increases, the gas-liquid separation performance improves. The separation mechanism of the DGLS is related to the centrifugal acceleration, which is better when it is less than 30 times the gravitational acceleration. A method for predicting the separation performance is proposed.
一种新型高含气量井下气液分离装置的性能研究
在井下,气体分离对电潜泵的正常运行至关重要。本文介绍了一种新型的井下气液分离器(DGLS),并对其分离性能进行了实验研究。实验结果表明,DGLS内的压降较小,气液分离过程可以看作是不可压缩流动。当分流比等于入口气体含量时,气液完全分离。此外,随着液体密度的增大,气液分离性能也随之提高。DGLS的分离机理与离心加速度有关,当离心加速度小于重力加速度的30倍时分离效果较好。提出了一种预测分离性能的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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