Experimental study on the influence of asphaltenes with small dosage on the rheological and gelation behavior of waxy mixtures

IF 4.8 Q2 ENERGY & FUELS Journal of Pipeline Science and Engineering Pub Date : 2024-06-01 DOI:10.1016/j.jpse.2023.100172
Yun Lei , Shuangshuang Li , Haoran Zhu , Dehua Lai , Shaoliang Zeng , Haoping Peng , Qianqian Shao , Pengfei Yu
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Abstract

Asphaltene, the heaviest and most polar non-hydrocarbon component in crude oil, may interact with waxes and affect the flow and gelation behavior of waxy oils. To further study the effect of asphaltene on the flow and gelation behavior of waxy oils, five wax-containing simulated oils with small dosage asphaltene content were prepared. Through pour point and rheometer test, it is found that asphaltenes can improve the low-temperature rheology of waxy oil. There is no critical turning point above which the low-temperature flowability improved. With an increase in asphaltene content from 0 wt% to 0.1 wt%, notable changes were observed in the properties of the waxy oil. The pour point, which measures the temperature at which the oil becomes too viscous to flow freely, exhibited a decrease from 25 ℃ to 13 ℃. Similarly, the gelation temperature, indicating the temperature at which the oil starts forming a gel-like consistency, also decreased from 29.0 ℃ to 27.1 ℃. These modifications can be attributed to the presence of asphaltene in the oil sample. This outcome can be attributed to the interference caused by the presence of asphaltenes, which disrupts the gel network structure of the waxy oil and consequently hinders its gelation process. Simultaneously, within the low asphaltene content range, an increase in asphaltene content resulted in a considerable decrease in the viscosity of the waxy oil at 10 °C, reducing it from 531.5 mPa s to 14 mPa s.

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小剂量沥青质对含蜡混合物流变和凝胶行为影响的实验研究
沥青质是原油中最重、极性最强的非烃类成分,可能会与蜡相互作用,影响蜡油的流动性和凝胶化行为。为进一步研究沥青质对蜡油流动和凝胶行为的影响,制备了五种含少量沥青质的含蜡模拟油。通过倾点和流变仪测试发现,沥青质可以改善蜡油的低温流变性。低温流动性的改善并没有一个临界转折点。随着沥青质含量从 0 wt% 增加到 0.1 wt%,蜡油的性质也发生了显著变化。倾点(衡量油品变得过于粘稠而无法自由流动的温度)从 25 ℃ 降至 13 ℃。同样,凝胶化温度也从 29.0 ℃ 降至 27.1 ℃。这些变化可归因于油样中沥青质的存在。这一结果可归因于沥青质的存在所造成的干扰,沥青质破坏了蜡油的凝胶网络结构,从而阻碍了其凝胶化过程。同时,在沥青质含量较低的范围内,沥青质含量的增加会导致蜡油在 10 °C 时的粘度大幅下降,从 531.5 mPa s 降至 14 mPa s。
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