Efficiency of the Green Surfactant Derived from Avena sativa Plant in the Presence of Different Salts for EOR Purposes

Journal of GeoEnergy Pub Date : 2023-05-18 DOI:10.1155/2023/9998466

A. Azdarpour, Milad Norouzpour, Moein Nabipour, R. Santos, E. Mohammadian

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引用次数: 4

Abstract

In this investigation, a unique approach using a green surfactant extracted from the Avena sativa (AS) plant in conjunction with three different salts, including Na2CO3, NaCl, and Na2SO4, was examined for enhanced oil recovery. In addition, the efficiency of NaOH as a supplementary chemical in the process was investigated. Based on the results of the interfacial tension (IFT), the optimum value of NaOH was found to be 2,000 ppm, while the green surfactant had a CMC value of 4,000 ppm. The IFT value at the CMC point of NaOH was 2.34 mN/m, when the FB was used, and the IFT value was 2.78 mN/m, when deionized water was used. In addition, in terms of IFT reduction, wettability modification, and oil recovery factor enhancement, Na2CO3 was the most suitable salt with the AS surfactant at the CMC point (4,000 ppm), followed by NaCl and then Na2SO4. The IFT values at the optimum salinity point (10,000 ppm) of Na2SO4, NaCl, and Na2CO3 were 3.18, 3.05, and 2.87 mN/m, respectively. Moreover, the contact angles at the optimum salinity point of 10,000 ppm after 150 hr and at the reservoir temperature (80°C) were 36.58°, 40.76°, and 44.18° with Na2CO3, NaCl, and Na2SO4, respectively. Furthermore, the addition of NaOH improved the efficiency of the green surfactant in terms of maximizing the recovery factor by decreasing the IFT values and changing the wettability of the rock toward a more water-wet state. The final recovery factors of 88.45%, 80.87%, and 7.98% were attained using Na2CO3, NaCl, and Na2SO4, respectively, when 1 PV of NaOH was injected as the preflush, followed by 4 PVs of natural AS surfactant.

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苜蓿植物绿色表面活性剂在不同盐类条件下提高采收率的效果

在这项研究中，研究人员采用了一种独特的方法，将从Avena sativa (AS)植物中提取的绿色表面活性剂与三种不同的盐(包括Na2CO3、NaCl和Na2SO4)结合使用，以提高采收率。此外，还考察了氢氧化钠作为辅助剂在该工艺中的效率。根据界面张力(IFT)的结果，发现NaOH的最佳值为2000 ppm，而绿色表面活性剂的CMC值为4000 ppm。当使用FB时，NaOH CMC点的IFT值为2.34 mN/m;当使用去离子水时，IFT值为2.78 mN/m。此外，在降低IFT、改善润湿性和提高采收率方面，AS表面活性剂在CMC点(4000 ppm)以Na2CO3为最合适的盐，其次是NaCl，最后是Na2SO4。Na2SO4、NaCl和Na2CO3在最佳矿化点(10,000 ppm)的IFT值分别为3.18、3.05和2.87 mN/m。Na2CO3、NaCl和Na2SO4在最佳盐度点(10,000 ppm)为150 h、油藏温度(80℃)时的接触角分别为36.58°、40.76°和44.18°。此外，NaOH的加入提高了绿色表面活性剂的效率，通过降低IFT值和改变岩石的润湿性，使采收率最大化。以Na2CO3、NaCl和Na2SO4为预冲剂，分别注入1 PV的NaOH和4 PV的天然as表面活性剂，最终回收率分别为88.45%、80.87%和7.98%。

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Journal of GeoEnergy

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