Novel Non-Aromatic Non-Ionic Rheology Modifiers for High Paraffinic Crude Oils

Khatere Sokhanvarian, A. Diarra, Jorge Fernandez, C. Stanciu
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Abstract

Wax and paraffin precipitation is a major problem around the world, costing the petroleum industry billions of dollars yearly. As temperature drops below the Wax Appearance or Wax Precipitation Temperature (WAT/WPT) of crudes, paraffin starts to precipitate out and restrict or block the effective flow. There are different methods, such as mechanical and chemical remediation to deal with wax issues. Among the latter ones, the use of surfactants is favorably looked upon since they are small molecules with surface activity properties. This study aims to introduce novel aliphatic non-ionic surfactants with different chain length and degree of ethoxylation. In addition to chain length, the impact of branching on the hydrophobic part of the surfactants was also studied. A waxy crude oil from Brazil was characterized through determining its carbon distribution, WAT, viscosity and density based on industry standard methods. Several surfactants with different combinations of chain length/ethoxylation number were then selected for screening. The performance of surfactants was evaluated based on data obtained from treated crude versus the control sample through different experiments. Rheology studies were conducted at 50 to -10°C and at shear rates of 5 and 300 s-1. The cold finger instrument was utilized to determine paraffin content of the untreated and treated crude. Finally, the paraffin crystal size was analyzed through microscopic studies. The results showed that shear rate can affect the wax treatment outcome as well as the effective concentration of surfactant. Therefore, it is important to assess the rheology at high and low shear rates. Some surfactants in the present study performed great at both low and high shear rates and were able to reduce the viscosity by 80% at temperatures well below WAT of the crude oil. The microscopy results confirmed that wax crystals were reduced in size and were more dispersed after treating the crude with these surfactants. The findings from High Temperature Gas Chromatography showed that the deposition of heavy fraction part of crude (C40+) is reduced after treating the crude oil with the surfactants in the present study. The current study addresses the wax precipitation/deposition challenges of heavy crudes and proposes mitigating them through the use of some new non-aromatic non-ionic surfactants. The chemistries and findings of this research help the oil and gas industry to save money and time by mitigating flow assurance problems.
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新型高石蜡原油非芳香族非离子流变改性剂
蜡和石蜡的沉淀是世界范围内的一个主要问题,每年给石油工业造成数十亿美元的损失。当温度低于原油的成蜡温度或出蜡温度(WAT/WPT)时,石蜡开始析出,限制或阻碍有效流动。有不同的方法,如机械和化学修复处理蜡问题。在后一种方法中,由于表面活性剂是具有表面活性的小分子,因此使用表面活性剂是受欢迎的。本研究旨在引入具有不同链长和乙氧基化程度的新型脂肪族非离子表面活性剂。除链长外,还研究了支化对表面活性剂疏水部分的影响。采用工业标准方法测定了巴西含蜡原油的碳分布、WAT、粘度和密度。然后选择不同链长/乙氧基化数组合的几种表面活性剂进行筛选。通过不同的实验,对处理后的原油和对照样品的数据进行了表面活性剂的性能评价。流变学研究在50至-10°C,剪切速率为5和300 s-1。采用冷指仪测定了未处理原油和处理原油的石蜡含量。最后,通过显微研究分析石蜡晶体尺寸。结果表明,剪切速率对蜡的处理效果和表面活性剂的有效浓度都有影响。因此,评估高剪切速率和低剪切速率下的流变性是很重要的。在目前的研究中,一些表面活性剂在低剪切速率和高剪切速率下都表现良好,并且能够在远低于原油WAT的温度下将粘度降低80%。显微镜观察结果证实,用这些表面活性剂处理原油后,蜡晶体的尺寸减小了,并且更加分散。高温气相色谱分析结果表明,表面活性剂处理原油后,原油重馏分部分(C40+)的沉积减少。目前的研究解决了重质原油的蜡沉淀/沉积问题,并建议通过使用一些新的非芳香族非离子表面活性剂来缓解这一问题。该研究的化学成分和发现有助于油气行业通过减少流动保障问题来节省资金和时间。
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