Small-Scale EOR Pilot in the Eastern Eagle Ford Boosts Production

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-02-08 DOI:10.2118/209429-pa
Tim Bozeman, Will Nelle, Quoc Nguyen
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Abstract

Summary Low primary and secondary recoveries of original oil in place from modern unconventional reservoirs beg for utilization of tertiary recovery techniques. Enhanced oil recovery (EOR) via cyclic gas injection (“huff ‘n’ puff”) has indeed enhanced the oil recovery in many fields, and many of those projects have also been documented in industry technical papers/case studies. However, the need remains to document new techniques in new reservoirs. This paper documents a small-scale EOR pilot project in the eastern Eagle Ford and shows promising well results. In preparation for the pilot, full characterization of the oil and injection gas was done along with laboratory testing to identify the miscibility properties of the two fluids. Once the injection well facility design was completed, a series of progressively larger gas volumes were injected followed by correspondingly longer production times. Fluids in the returning liquid and gas streams were monitored for compositional changes, and the learnings from each cycle led to adjustments and facility changes to improve the next cycle. After completing five injection/withdrawal cycles in the pilot, a few key observations can be made. The implementation of cyclic gas injection can be both a technical and a commercial success early in its life if reasonable cost controls are implemented and the scope is kept manageable. The process has proved to be both repeatable and predictable, allowing for future economic modeling to be used to help determine timing of subsequent injection cycles. A key component of the success of this pilot has been the availability of small compressors capable of the high pressures required for these projects and learning how to implement cost saving facility designs that still meet high safety standards.
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Eagle Ford东部的小规模EOR试验提高了产量
现代非常规油藏原油一次和二次采收率低,需要采用三次采收率技术。通过循环注气(“huff”n“puff”)提高采收率(EOR)确实在许多油田提高了采收率,其中许多项目也被记录在行业技术论文/案例研究中。然而,仍然需要在新的油藏中记录新技术。本文记录了Eagle Ford东部的一个小规模EOR试点项目,并显示出良好的效果。为了进行试验准备,对油气进行了全面表征,并进行了实验室测试,以确定两种流体的混相特性。注入井设施设计完成后,注入的气体体积逐渐增大,生产时间也相应延长。对返回的液体和气体流中的流体进行成分变化监测,并从每个循环中学习,从而进行调整和设备更改,以改进下一个循环。在试验中完成5个注入/提取周期后,可以进行一些关键观察。如果实施合理的成本控制,并且范围保持在可控范围内,循环注气可以在其生命周期的早期取得技术和商业上的成功。事实证明,该过程具有可重复性和可预测性,可用于未来的经济建模,以帮助确定后续注入周期的时间。该试点项目成功的一个关键因素是能够承受这些项目所需的高压的小型压缩机的可用性,以及学习如何在满足高安全标准的情况下实施节省成本的设施设计。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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