The Effect of Nano Heavy Metal Oxide Particles on the Wettability of Carbonate Reservoir Rock

IF 2.1 4区 工程技术 Q3 ENERGY & FUELS
Hassan Pashaei, A. Ghaemi, Rohaladin Miri
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引用次数: 1

Abstract

Production of oil from carbonate rocks is very challenging due to their inherent nature, such as detection, complex wettability, pore structure, and low recovery factor. Nanoparticles (NPs) are recognized as remarkable materials for a wide range of research and commercial applications due to their physical properties and characteristics. Extensive research in recent years has shown that nanoscience can provide great potential for the development of carbonate reservoirs and enhanced oil recovery (EOR). In this study, the carbonate core plug samples were prepared from an Iranian reservoir. At first, the wettability capacity of the core samples was evaluated. This process was carried out by evaluating wettability changes using the contact angle of base fluid and nanofluid. The potential of the NPs (ZnO, TiO2, and ZrO2) to change the wettability was experimentally tested in the loading NPs from 0.01 wt% to 0.5 wt% by the contact angle method. Wettability studies have shown that nanofluids can influence wettability variability from oil-wet to water-wet quality. About 0.05 wt% of NPs was found to be the optimal concentration to affect wettability change. The same behavior was observed for all nanofluids at the same NP loading; while TiO2 showed better performance with a sharp change from an oil-wet state (θ = 151.9°) to a water-wet state (θ = 111.3°), ZnO, and ZrO2 changed wettability to a moderately-wet condition (θ = 108.6° and 118.6°, respectively) at 0.05 wt% NP loading. We conclude that TiO2-based nanofluids have great potential as EOR agents, and TiO2 is very impressive in its strong water-wettability. The highest oil recovery in the optimal amount for all three nanofluids was obtained as 35.2%, 23.2%, and 25.6%, respectively, for TiO2, ZnO, and ZrO2 nanofluids. Furthermore, we considered the effect of nanofluids on the recovery performance of the brine/oil system for carbonate core samples. The results showed that nanofluids can significantly imbibe into the core sample, and as a result, the final oil recovery is significant.
纳米重金属氧化物颗粒对碳酸盐岩储层润湿性的影响
由于碳酸盐岩的探测、复杂的润湿性、孔隙结构和低采收率等固有性质,从碳酸盐岩中开采石油非常具有挑战性。纳米粒子(NPs)由于其物理性质和特性而被认为是广泛研究和商业应用的卓越材料。近年来的大量研究表明,纳米科学在碳酸盐岩储层开发和提高采收率方面具有巨大的潜力。在这项研究中,从伊朗的一个储层中制备了碳酸盐岩心塞样。首先,对岩心样品的润湿性进行了评价。这一过程是通过基液和纳米流体的接触角来评估润湿性变化来进行的。通过接触角法测试了NPs (ZnO, TiO2和ZrO2)在负载NPs从0.01 wt%到0.5 wt%的情况下对润湿性的影响。润湿性研究表明,纳米流体可以影响从油湿到水湿的润湿性变化。约0.05 wt%的NPs是影响润湿性变化的最佳浓度。在相同的NP负载下,所有纳米流体的行为都相同;TiO2表现出较好的润湿性,从油湿状态(θ = 151.9°)急剧转变为水湿状态(θ = 111.3°),ZnO和ZrO2在0.05 wt% NP负载下将润湿性转变为中等湿润状态(θ = 108.6°和118.6°)。我们得出结论,TiO2基纳米流体作为提高采收率剂具有很大的潜力,并且TiO2具有很强的水润湿性。在最佳用量下,TiO2、ZnO和ZrO2纳米流体的采收率最高,分别为35.2%、23.2%和25.6%。此外,我们还考虑了纳米流体对碳酸盐岩心样品的盐水/油体系采收率的影响。结果表明,纳米流体对岩心样品具有明显的吸收性,最终采收率显著。
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来源期刊
CiteScore
5.30
自引率
0.00%
发文量
68
审稿时长
12 months
期刊介绍: Covers the application of a wide range of topics, including reservoir characterization, geology and geophysics, core analysis, well logging, well testing, reservoir management, enhanced oil recovery, fluid mechanics, performance prediction, reservoir simulation, digital energy, uncertainty/risk assessment, information management, resource and reserve evaluation, portfolio/asset management, project valuation, and petroleum economics.
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