Effect of Water Salinity on Crude Oil Viscosity in Porous Media at Varying Temperatures

N. Ogolo, Daniel O. Adesina, George O. Akinboro, M. Onyekonwu
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引用次数: 1

Abstract

Viscosity is one major property of crude oil that is highly dependent on temperature and affects production operations. But temperature is not the only factor that affects oil viscosity; other factors include oil composition, pressure and dissolved gas. However, it has been observed that water salinity can also affect crude oil viscosity. It is therefore imperative that the effect of water salinity on crude oil viscosity be studied since water injection schemes using produced water or sea water is a common practice because it is economical and efficient in oil displacement from porous media. This paper studies the effect of water salinity on crude oil viscosity at temperatures of 30°C, 70°C and 110°C. Sand samples were flooded with crude oil of known viscosity and brine of different salinity values ranging from 30g/l to 70g/l, after which the oil viscosities were determined again as well as the brine density. The flooding experiments were conducted like relative permeability experiments under steady state with an overburden pressure of 3000psi, using a standard core flooding equipment at a flow rate of 2ml/min. The experimental results show that water salinity can increase crude oil viscosity. It was observed that the viscosity of the oil varied from 0.5cp to 2.3cp at different water salinity levels which could have been as a result of the chemical interaction between the two fluids. The effect of water salinity on the oil viscosity was more obvious at 30°C than at 70°C and 110°C, indicating that temperature could have played a vital role in the interaction process. On the other hand, the variation in water density after the oil-water interaction was more significant at higher temperatures than at 30°C. It was also observed that the maximum oil viscosity at 30°C was 2.26cp at 50g/l water salinity while 30g/l salinity gave the highest viscosity values of 1.29cp and 1.06cp for 70°C and 110°C respectively. This stresses the importance of conducting such studies with water samples intended to be used for water injection. It is therefore recommended that the effect of water salinity on crude oil viscosity be studied before embarking on any water injection scheme since high oil viscosity is not desired during oil production operations.
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不同温度下多孔介质中水矿化度对原油粘度的影响
粘度是原油的一个主要特性,它高度依赖于温度并影响生产操作。但温度并不是影响油粘度的唯一因素;其他因素包括油的成分、压力和溶解气体。然而,已经观察到水的矿化度也会影响原油的粘度。因此,研究水矿化度对原油粘度的影响是势在必行的,因为使用采出水或海水的注水方案是一种常见的做法,因为它在多孔介质中驱油是经济有效的。本文研究了在30℃、70℃和110℃条件下,水矿化度对原油粘度的影响。将已知粘度的原油和不同矿化度值(30g/l ~ 70g/l)的盐水注入砂样,然后再次测定原油粘度和盐水密度。驱油实验采用稳态相对渗透率实验,覆盖层压力为3000psi,采用标准岩心驱油设备,流量为2ml/min。实验结果表明,水的矿化度会增加原油的粘度。观察到,在不同的水盐度水平下,油的粘度从0.5cp到2.3cp不等,这可能是两种流体之间化学相互作用的结果。水矿化度对油粘度的影响在30°C时比在70°C和110°C时更为明显,表明温度在相互作用过程中可能起着至关重要的作用。另一方面,油水相互作用后的水密度变化在较高温度下比在30°C时更为显著。还观察到,在水盐度为50g/l时,30°C时的最大粘度为2.26cp,而在水盐度为30g/l时,70°C和110°C时的最大粘度分别为1.29cp和1.06cp。这就强调了用拟用于注水的水样进行这类研究的重要性。因此,建议在实施任何注水方案之前,先研究水矿化度对原油粘度的影响,因为在石油生产过程中,不希望出现高粘度的石油。
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