期刊
SPE JOURNAL
卷 26, 期 6, 页码 3681-3693出版社
SOC PETROLEUM ENG
DOI: 10.2118/206721-PA
关键词
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资金
- Crisman Institute for Petroleum Research
This study introduces a new oil-composition-based IFT correlation that can be used for shale-crude-oil samples. The research reveals that most crude oils from unconventional reservoirs contain little to no asphaltic material. Furthermore, the study provides a thorough investigation on the impact of oil components, salinity, temperature, and their interactions on oil/water IFT.
Oil/water interfacial tension (EFT) is an important parameter in petroleum engineering, especially for enhanced-oil-recovery (EOR) techniques. Surfactant and low-salinity EOR target IFT reduction to improve oil recovery. IFT values can he determined by empirical correlation, but widely used thermodynamic-based correlations do not account for the surface-activities characteristic of the polar/nonpolar interactions caused by naturally existing components in the crude oil. In addition, most crude oils included in these correlations come from conventional reservoirs, which are often dissimilar to the low-asphaltene crude oils produced from shale reservoirs. This study presents a novel oil-composition-based IFT correlation that can be applied to shale-crude-oil samples. The correlation is dependent on the saturates/aromatics/resins/asphaltenes (SARA) analysis of the oil samples. We show that the crude oil produced from most unconventional reservoirs contains little to no asphaltic material. In addition, a more thorough investigation of the effect of oil components, salinity, temperature, and their interactions on the oil/water IFT is provided and explained using the mutual polarity/solubility concept. Fifteen crude-oil samples from prominent US shale plays (i.e., Eagle Ford, Middle Bakken, and Wolfcamp) are included in this study. IFT was measured in systems with salinity from 0 to 24% and temperatures up to 195 degrees F.
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