砂岩储层的低盐度水和聚合物驱:利用最大能垒从纳米尺度升级到宏观尺度

2区 工程技术 Q1 Earth and Planetary Sciences
Prashant Jadhawar, Motaz Saeed
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引用次数: 6

摘要

本文对砂岩储层低矿化度水驱和低矿化度聚合物驱(LSWF和LSP)的驱油过程进行了纳米尺度和宏观尺度的机理模拟。采用三层表面络合模型模拟了油-盐水和砂岩-盐水界面的相互作用。应用Derjaguin-Landau-Verwey-Overbeek (DLVO)理论描述了原油-盐水-砂岩体系界面膜的稳定性。本文提出了利用DLVO理论的相互作用势计算的最大能垒(MEB)作为上标和插值参数来调整相对渗透率曲线作为储层性质函数的新应用。利用商用模拟器CMG-STARS进行数值模拟,结合表面络合模型和成膜分析,对砂岩储层中LSWF和LSP的性能进行了评价。数值模拟结果表明,与标准聚合物驱相比,LSP的采收率明显更高,因为它利用了LSWF引起的润湿性改变和LSP改善的流动性控制。通过对低、高矿化度水驱和低、高矿化度聚合物驱的对比研究,发现润湿性改变的采收率明显高于流动性控制的采收率。进一步分析表明,温度对润湿性变化的影响较大,对聚合物段塞粘度的影响较小。然而,温度对润湿性的影响更为明显。本研究中提出的工作流程为利用数值模拟技术筛选适合LSWF和LSP应用的砂岩储层提供了有价值的指导,通过从纳米尺度到宏观尺度再到油田尺度的升级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Low salinity water and polymer flooding in sandstone reservoirs: Upscaling from nano-to macro-scale using the maximum energy barrier

Low salinity water and polymer flooding in sandstone reservoirs: Upscaling from nano-to macro-scale using the maximum energy barrier

In this work, the flooding processes of low salinity waterflooding and low salinity polymer flooding (LSWF and LSP) in sandstone reservoirs were mechanistically modelled at nano-and macro-scales. Triple-layer surface complexation models were utilised to simulate interactions at the oil-brine and sandstone-brine interfaces. The Derjaguin-Landau-Verwey-Overbeek (DLVO) theory was applied to describe the stability of interfacial films in crude oil-brine-sandstone rock systems. The novel application of the maximum energy barrier (MEB), calculated from the interaction potential of the DLVO theory, as an upscaling and interpolant parameter to adjust relative permeability curves as a function of reservoir properties is proposed in this work. Numerical simulations using the commercial simulator CMG-STARS were used in tandem with the surface complexation models and film analysis to evaluate the performance of LSWF and LSP in sandstone reservoirs.

Results of the numerical simulations showed that the LSP gave significantly higher oil recovery compared to standard polymer flooding because of its utilisation of wettability alteration due to LSWF and the improved mobility control due to LSP. A comparison between studied injection processes i.e. low and high salinity waterflooding, and low and high salinity polymer flooding, revealed that oil recovery as a result of wettability alteration is significantly higher than that of mobility control. Further analysis indicated that temperature affects the wettability alteration favourably, and the polymer slug viscosity unfavourably. However, the temperature effect on the wettability was found to be more pronounced. The workflow presented in this study provides valuable guidelines in screening the appropriate sandstone reservoirs for LSWF and LSP applications using the numerical simulation techniques through the upscaling from nano-to-macro-to-field scale.

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来源期刊
Journal of Petroleum Science and Engineering
Journal of Petroleum Science and Engineering 工程技术-地球科学综合
CiteScore
11.30
自引率
0.00%
发文量
1511
审稿时长
13.5 months
期刊介绍: The objective of the Journal of Petroleum Science and Engineering is to bridge the gap between the engineering, the geology and the science of petroleum and natural gas by publishing explicitly written articles intelligible to scientists and engineers working in any field of petroleum engineering, natural gas engineering and petroleum (natural gas) geology. An attempt is made in all issues to balance the subject matter and to appeal to a broad readership. The Journal of Petroleum Science and Engineering covers the fields of petroleum (and natural gas) exploration, production and flow in its broadest possible sense. Topics include: origin and accumulation of petroleum and natural gas; petroleum geochemistry; reservoir engineering; reservoir simulation; rock mechanics; petrophysics; pore-level phenomena; well logging, testing and evaluation; mathematical modelling; enhanced oil and gas recovery; petroleum geology; compaction/diagenesis; petroleum economics; drilling and drilling fluids; thermodynamics and phase behavior; fluid mechanics; multi-phase flow in porous media; production engineering; formation evaluation; exploration methods; CO2 Sequestration in geological formations/sub-surface; management and development of unconventional resources such as heavy oil and bitumen, tight oil and liquid rich shales.
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