超声处理对渣油中胶质和沥青质分子结构的影响

石油炼制与化工 ›› 2025, Vol. 56 ›› Issue (4): 70-76.

超声处理对渣油中胶质和沥青质分子结构的影响

赵立栋,戴咏川,冯鋆铖,丁巍,宋官龙,邹丽,王皓

辽宁石油化工大学石油化工学院

收稿日期:2024-10-21 修回日期:2024-12-18 出版日期:2025-04-12 发布日期:2025-04-02
通讯作者: 赵立栋 E-mail:937483046@qq.com
基金资助:
国家自然科学基金;国家自然科学基金;辽宁省教育厅科学技术研究;抚顺英才计划;辽宁石油化工大学大学生创新创业训练计划项目

EFFECT OF UITRASOUND ON MOLECULAR STRUCTURE OF RESIN AND ASPHALTENE IN RESIDUE

Received:2024-10-21 Revised:2024-12-18 Online:2025-04-12 Published:2025-04-02

摘要/Abstract

摘要： 研究了超声波对渣油中胶质和沥青质含量变化影响的原因及机制。结果表明，对渣油族组成影响最大的因素是超声温度，超声功率次之，而超声时间的影响不显著。对渣油中沥青质与胶质进行红外光谱表征，结果表明，沥青质与胶质的官能团种类未发生明显变化，仅含量略有变化。对沥青质与胶质进行核磁共振氢谱表征，结果表明，低温低功率时胶质产生的游离杂原子与沥青质表面的侧链成环，沥青质结构上有杂环不饱和化合物生成，有利于沥青质聚合；高温高功率超声处理促使沥青质中的芳烃开环而形成侧链，对沥青质裂解有利。胶质裂解产生的芳香化合物吸附于其表面，但高温高功率对此吸附作用有一定的限制。

关键词: 沥青质, 胶质, 渣油, 聚合, 裂解

Abstract: This paper mainly studies the causes and the mechanisms of how ultrasonic waves affect and change the resin and the asphaltene in residue. The results show that initial temperature of ultrasoinc operation has the greatest effect on the distribution of the saturate, aromatic, resin, asphaltene, and the ultrasoinc power takes the second, while operation time has no distinct effect. According to the infrared spectroscopic analysis, the types of functional groups of asphaltene and resins do not change significantly, merely the contents change slightly. Proton nuclear magnetic resonance analysis show that free heteroatoms produced from resin cyclize with the side chains on asphaltene surface and heterocyclic unsaturated compounds are formed on asphaltene structure at low temperature and low power, thus these effects are conducive to asphaltene polymerization. High temperature and high power promote the aromatic structure of asphaltene to open the ring and form side chain, which is favorable for asphaltene cracking. The aromatic compounds of the resin pyrolysis is adsorbed on its surface, while there is a certain limit to this adsorption at high temperature and high power.

Key words: asphaltene, resin, residue, polymerization, pyrolysis

赵立栋戴咏川冯鋆铖丁巍宋官龙邹丽王皓. 超声处理对渣油中胶质和沥青质分子结构的影响[J]. 石油炼制与化工, 2025, 56(4): 70-76.

参考文献

[1] 李俊.藻类热解生物油的研究及其重质油中氮元素的迁徙转化规律[D].武汉:华中科技大学,2021.
[2] 张肖肖.超声处理对重质油组成和性质的影响[D].青岛:中国石油大学(华东),2021.
[3] 洪琨,马凤云,钟梅,等.塔河常压渣油中亚组分化学组成与结构分析[J].石油炼制与化工,2016,47(04):105-110.
[4] 杜新娟,刁大龙,张龙力.沥青质分散剂的研究进展[J].石油化工高等学校学报,2024,37(04):12-17.
[5] 孙瑞.重质油高值化利用工艺技术研究[D].淄博:山东理工大学,2014.
[6] 付庆涛.重质油分子结构的若干基础研究[D].北京:中国石油大学,2007.
[7] 赵闯,蒋立敬,翁延博,等.渣油的微波改质技术研究[J].石油炼制与化工,2014,45(10):37-40.
[8] 乔健鑫.基于功率超声的重油改质技术研究[D].哈尔滨:哈尔滨工业大学,2017.
[9] 高会哲,戴咏川,华炜,等.超声波对重质油4组分分布的影响[J].化学工业与工程,2012,29(05):28-32.
[10] 苏港川,陈强,林伟翔,等.超声空化对减压渣油微观结构的影响[J].化学工程,2023,51(08):7-11.
[11] Guanlong,Song,De-Hui,et al.A novel ultrasonic-assisted method for enhanced yield of light oil in the thermal cracking of residual oil.[J].Ultrasonics Sonochemistry, 2018,48(0):103-109.
[12] Kaushik P ,Kumar A,Bhaskar T,et al.Ultrasound cavitation technique for up-gradation of vacuum residue[J].Fuel Processing Technology,2011,93(1):73-77.
[13] Wang M B S ,emailprotected, Emailprotected E ,et al.Ultrasound Irradiation for Upgrading Vacuum Residue: A Comprehensive Study on Its Effects on Rheological, Structural, Thermal Behavior, and Catalytic Hydrocracking Performance[J].Industrial & Engineering Chemistry Research,2023,62(49):21120-21129.
[14] 谢银月,唐懿文,徐申婷.超声波的物理特性及医学应用[J].中国教育技术装备,2019,(02):26-28.
[15] Qiao J,Zuo K ,Sun Y, et al.Experimental studies on the effect of ultrasonic treatment and hydrogen donors on residual oil characteristics[J].Ultrasonics Sonochemistry,2020,(69)105-266.
[16] Pan Y,Lou X,Yang X S Z M.Ultrasonic viscosity-reduction vacuum residue oil[J].Reviews in Chemical Engineering,2023, 39(6):1085-1121.
[17] 王翀,赵德智,宋官龙,等.超声波作用下渣油临氢热裂化反应机理[J].辽宁石油化工大学学报,2018,38(02):9-12.
[18] 孙昱东,商宗翼,张肖肖,等.超声处理对减压渣油结构组成的影响[J].炼油技术与工程,2022,52(10):10-13.
[19] 孙钦玺.热反应对辽河重油及其重组分性质的影响研究[D].北京:北京化工大学,2014.
[20] 何勇, 陈建标, 户昶昊, 等. N2 和 CO2 气氛下辽河稠油热解过程及产物性质[J]. 石油学报(石油加工), 2019, 35(01): 128-135.
[21] 关润伶, 朱红.胜利油田稠油组分的光谱法研究[J]. 光谱学与光谱分析,2007, 11: 2270-2274.
[22] 张玉,初伟,张龙力,等.胜利稠油水热裂解过程中沥青质结构特征的变化分析[J].油田化学,2023,40(01):93-101.
[23] 文萍,崔敏,李传,等.稠油及其组分结构参数和红外光谱的考察[J].石油化工高等学校学报,2013,26(04):11-15.
[24] 杨天方.重质油分子结构及芳香特性研究[D].北京:中国石油大学,2008.
[25] Mizuhara J,Liang Y,Masuda Y,et al.Evaluation of Asphaltene Adsorption Free Energy at the OilWater Interface: Role of Heteroatoms[J].Energy & Fuels, 2020, 34(5):5267-5280.
[26] Xiong R Y , Guo J X , Kiyingi W ,et al.The deposition of asphaltenes under high-temperature and highpressure (HTHP) conditions[J].石油科学:英文版, 2023, 20(1):611-618.
[27] 成浪.稠油催化改质降粘催化剂的合成与性能评价[D].乌鲁木齐:新疆大学,2019.
[28] 周惠敏,田莹,刘思亿,等.沥青质分子缔合作用机制、表征、理论计算与应用研究进展[J].化工学报,2023,74(10):3995-4019.