一种评价天然原油介质中沥青质稳定性和缓蚀剂效率的新型热电技术

A. Punase, Claudia Mazzeo, P. Hart, A. Mahmoudkhani, J. Wylde
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引用次数: 1

摘要

沥青质是原油中极性溶解度最高的组分。沥青质-水、沥青质-粘土或沥青质-沥青质分子之间的极性相互作用会在油田中造成严重的流动保障问题,如形成高度稳定的乳化液、储层内的孔喉堵塞以及生产和运输管线的堵塞。本研究提出了一种通过热电测量来理解这些极性相互作用的新方法,该方法可以评估天然原油中沥青质的整体稳定性。目前用于评估沥青质稳定性和不同沥青质抑制剂防止沥青质沉积效率的大多数技术都是基于光散射和透射现象。由于原油本质上是深色的,这些技术需要用甲苯和二甲苯等溶剂或戊烷和庚烷等沉淀剂稀释油样。这些化学物质的加入改变了原油溶解度组分的性质和热力学平衡。因此,开发了一种测量原油和原油-沥青烯抑制剂混合物热电性能的新方法,并使用定制的电容器装置进行了测试。对10种不同的原油样品进行了热电测量。这些样品总共使用了10种沥青烯抑制剂(AI)进行测试。测量数据用于间接估计测试样品的极性,这与沥青质抑制剂的分散效率有关。标准的光散射技术也被用于分析石油和石油抑制剂样品,并将结果与热电法结果进行了比较。值得注意的是,本研究中测试的一些油样来自有沥青质沉积问题的生产系统,并且正在进行有效的预防和补救处理。因此,对于新技术的成功来说,重要的是不仅要与标准光散射测试结果相关联,而且要能够精确地确定沥青质抑制剂对每种测试油样品的效果。结果表明,采用热电法可以准确地筛选出沥青质抑制剂,并根据其用量曲线分析了抑制剂的效率,与现场观察情况吻合较好。热电法与光散射法的结果具有较强的相关性,表明了该方法的有效性和较高的精度。此外,将该方法直接应用于井口的生产平台上,利用本地原油样品,突出了该新方法的多功能性。除了测试沥青质的整体稳定性和抑制剂效率外,该方法还可用于监测和优化油田规模生产方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Thermo-Electric Technique to Evaluate Asphaltene Stability and Inhibitor Efficiency in Native Crude Oil Medium
Asphaltenes represent the most polar solubility fraction of crude oil. The polar-polar interactions between asphaltene-water, asphaltene-clay, or asphaltene-asphaltene molecules can cause severe flow assurance issues in the oilfield such as formation of highly stable emulsion, pore-throat blockages within the reservoir, and plugging of production and transportation flowlines. A novel approach of understanding these polar interactions through thermo-electric measurements is presented in this study, which can evaluate overall asphaltene stability in native crude oil. Most of the techniques currently being used to assess asphaltene stability and efficiency of different asphaltene inhibitors on preventing asphaltene deposition are based on light scattering and transmittance phenomenon. Since crude oils are intrinsically dark colored, these techniques require dilution of the oil sample with solvents like toluene and xylene or precipitants like pentane and heptane. Addition of these chemicals alters the nature and thermodynamic equilibrium of crude oil solubility fractions. Thus, a novel approach of measuring the thermo-electric properties of crude oil and crude oil-asphaltene inhibitor mixtures was developed and tested using a custom-built capacitor setup. The thermo-electric measurements were conducted on 10 different crude oil samples. These samples were altogether tested with 10 asphaltene inhibitors (AI). Measured data was used to indirectly estimate the polarity of the test sample, which is related to the dispersion efficiency of the asphaltene inhibitor. A standard light scattering technique was also used to analyze the oil and oil-inhibitor samples and the results were compared to the thermo-electric method outcomes. It should be noted that some of the oil samples tested in this study were obtained from production systems having asphaltene deposition issues and undergoing effective prevention and remediation treatment. Therefore, it is important for the success of the new technique to not only correlate with the standard light scattering test results but also be able to precisely the efficacy of asphaltene inhibitors for each of the test oil samples. From the results obtained, it was observed that using the thermo-electric method, the asphaltene inhibitors can be accurately screened for all the oil samples and the inhibitor efficiency analyzed in terms of its dosage curve, also agrees well with the conditions observed in the field. A strong correlation between the results obtained from the thermo-electric technique and the light scattering method indicates the validity and higher-level accuracy of the innovative technique. Moreover, direct application of this method on the production platform at the well-head using the native crude oil sample highlights the versitality of this novel method. In addition to testing overall asphaltene stability and inhibitor efficiency, the method can also be used to monitor and optimize the field scale production scenario.
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