通过自动化优化高压气举

高压气举 (HGPL) 方法受到页岩油运营商(包括二叠纪盆地)的欢迎,该方法侧重于注入深度、注入速率、流动截面面积和流动井口压力,以最大限度地提高油井的价值。

Wolf HGPL 没有机械井下部件,代表了气举的替代方法。(来源:Etis 压缩)

经过
詹妮弗
帕拉尼奇
哈特能源

高压气举(HGPL)作为一种非常规油田的人工举升方法正在受到越来越多的关注。

Estis Compression 的 Wolf HPGL 方法在井下不使用任何机械部件。相反,所有设备都位于顶部,可以根据需要在井之间移动。在首次现场试验后不到五年,Etis 正致力于通过自动化来优化 Wolf HPGL。

Estis 的人工举升专家维克多·乔丹 (Victor Jordan) 表示,人工举升方法对操作员来说很有趣,因为它可以加速生产,并且没有其他人工举升方法(例如电潜泵 (ESP))带来的一些缺点。

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Optimizing High-Pressure Gas Lift through Automation

Gaining traction among shale operators—including in the Permian Basin, the high-pressure gas lift (HGPL) method focuses on injection depth, injection rate, cross-sectional flow area and flowing wellhead pressure to maximize the value of wells.

The Wolf HGPL has no mechanical downhole parts and represents an alternative approach to gas lift. (Source: Estis Compression)

By
Jennifer
Pallanich
Hart Energy

High-pressure gas lift (HGPL) is gaining traction as an artificial lift method for unconventional fields.

Estis Compression’s Wolf HPGL method uses no mechanical parts downhole. Instead, all equipment is topside and can be moved from well to well as needed. A scant five years after its first field trial, Estis is working to optimize Wolf HPGL through automation.

Victor Jordan, artificial lift specialist at Estis, said the artificial lift method is interesting to operators because it can accelerate production without some of the downsides that come with other artificial lift approaches, such as electrical submersible pumps (ESPs).

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