砂岩油藏破胶液侵入及其对油气采收率影响的三方耦合研究

Q1 Earth and Planetary Sciences
Stella I. Eyitayo , Kazeem A. Lawal , Marshall C. Watson , Oladoyin Kolawole , Ibrahim Abdullahi , Asekhame U. Yadua , Oluchukwu M. Okoh , Saka Matemilola , Tunde Alabi
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引用次数: 1

摘要

破胶液旨在通过破胶滤饼的长链分子来溶解滤饼,从而去除井筒壁上的固体沉积物。尽管破胶液不打算渗透到油气藏中,但它们可以通过改变砂岩储层的润湿性和相对渗透率来入侵并造成地层损害。这可能导致储层整体性能下降。本研究结合三方方法研究了破胶剂在油气藏中的侵入和运移的潜在影响及其对砂岩储层性能的多尺度影响。我们利用实验、分析和数值方法来评估和预测储层对破胶液入侵和输送的敏感性。我们的实验和经验研究考虑了不同的破胶液配方,以评估破胶液浓度、地层温度和溶液气油比(GOR)对剩余油饱和度(ROS)和油水相对渗透率的影响。通过采用与50%v/v破胶液混合物相关的ROS和相对渗透率,对破胶液在无侵入、中等侵入和深度侵入的极限情况下的油气藏性能进行了数值模拟。结果表明,破胶液浓度与ROS呈正相关,突出了破胶液入侵和深度渗透对碳氢化合物回收的风险。此外,结果表明,活油条件(LOC)和死油条件(DOC)油藏都容易受到破胶液渗透的不利影响,而它们的侵入会降低LOC(−6%)和DOC(−28%)的碳氢化合物采收率。与远场和LOC相比,近井筒和DOC对储层性能的多尺度影响更为明显。这项工作的发现为砂岩储层中破胶液侵入的复杂性以及降低储层性能的相关风险提供了有价值的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coupled tripartite investigation of breaker fluid invasion and impact on hydrocarbon recovery in sandstone reservoirs

Breaker fluids are designed to dissolve filter cakes by breaking their long-chain molecules, thereby removing solid deposits on the wellbore wall. Although breaker fluids are not intended to infiltrate the hydrocarbon reservoir, they can invade and cause formation damage by altering sandstone reservoirs' wettability and relative permeability. This can lead to a reduction in the overall reservoir performance. This study coupled tripartite methods to investigate the potential impact of breaker invasion and transport in hydrocarbon reservoirs and its multiscale effect on the performances of sandstone reservoirs. We utilized experimental, analytical, and numerical methods to assess and predict the susceptibility of reservoirs to breaker fluid invasion and transportation. Our experimental and empirical investigations considered varying breaker fluid formulations to evaluate the effects of breaker fluid concentration, formation temperature, and solution gas-oil ratio (GOR) on residual-oil saturation (ROS) and oil-water relative permeability. By adopting the ROS and relative permeability associated with the 50% v/v breaker fluid mixture, the performance of the hydrocarbon reservoir was numerically simulated under the limiting scenarios of no-invasion, moderate-invasion, and deep-invasion of breaker fluid. The results indicate a positive correlation between breaker fluid concentration and ROS, highlighting the risks that breaker fluid invasion and deep infiltration pose to hydrocarbon recovery. Further, results show that both live-oil condition (LOC) and dead-oil condition (DOC) reservoirs are susceptible to the detrimental impacts of breaker fluid infiltration, while their invasion can reduce hydrocarbon recovery in both LOC (−6%) and DOC (−28%). The multi-scale effects on reservoir performance are more pronounced at near-wellbore and DOC than at far-field and LOC. Findings from this work provide valuable insights into the complexity of breaker-fluid invasion in sandstone reservoirs and the mitigation of associated risks to reservoir performance.

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来源期刊
Petroleum Research
Petroleum Research Earth and Planetary Sciences-Geology
CiteScore
7.10
自引率
0.00%
发文量
90
审稿时长
35 weeks
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