石油炼制与化工 ›› 2026, Vol. 58 ›› Issue (7): 37-44.

• 加工工艺 • 上一篇    下一篇

环烷基富芳烃重油制备高含量中间相沥青的研究

田凌燕1,2,刘东1,王华2,周广雪1,娄斌1,魏军2   

  1. 1. 中国石油大学(华东)重质油全国重点实验室
    2. 中石油克拉玛依石化有限责任公司
  • 收稿日期:2026-01-12 修回日期:2026-02-03 出版日期:2026-07-12 发布日期:2026-06-29
  • 通讯作者: 田凌燕 E-mail:tianlingyan_2000@126.com
  • 基金资助:
    中国石油科技创新基金

RESEARCH ON THE PREPARATION OF HIGH CONTENT MESOPHASE ASPHALT FROM CYCLOALKYL AROMATIC RICH HEAVY OIL


  • Received:2026-01-12 Revised:2026-02-03 Online:2026-07-12 Published:2026-06-29

摘要: 以某石化公司催化裂化循环油为原料,通过剖析高黏体系中间相的聚集态变化,在缩聚反应后期采用低转速、高温、长时间沉降分离以提高中间相沥青含量,借助质谱、元素分析、偏光显微镜等手段对原料及中间相沥青进行物性表征,建立了偏光显微镜+热台联用快速测定中间相沥青软化点方法,对比了芳烃富集前后的催化裂化循环油热缩聚制备中间相沥青的差异。结果表明,缩聚产物沉降分离效果显著,中间相沥青质量分数达100%,该催化裂化循环油直接热缩聚得到中间相沥青的收率仅为13.2%,软化点大于320 ℃,且镶嵌结构质量分数高达82.3%;经糠醛精制富集芳烃后热缩聚反应活性适中,可得到收率为28.5%、软化点为280 ℃、中间相质量分数达100%的中间相沥青。

关键词: 催化裂化循环油, 热缩聚, 中间相沥青, 沉降分离, 软化点

Abstract: Using catalytic cracking cycle oil from a certain petrochemical company as raw material, the changes in the aggregation state of the mesophase asphalt in the high viscosity system were analyzed. In the later stage of the polycondensation reaction, low-speed, high-temperature, and long-term settling separation were used to increase the content of mesophase asphalt. The physical properties of the raw material and mesophase asphalt were characterized by mass spectrometry, elemental analysis, polarizing microscope, and other methods. A rapid method for determining the softening point of mesophase asphalt using polarizing microscope and thermal bench was established, and the differences in the preparation of mesophase asphalt by thermal polycondensation of catalytic cracking cycle oil before and after aromatic hydrocarbon enrichment were compared. The results showed that the settling separation effect of the condensation products was significant, with an mesophase asphalt content of 100%. The catalytic cracking cycle oil was directly thermally condensed to obtain mesophase asphalt with a yield of only 13.2%. Its softening point was greater than 320 ℃, and a high embedded structure content of 82.3%. After refining and enriching aromatic hydrocarbons with furfural, the polycondensation reaction activity was moderate. An mesophase asphalt with a yield of 28.5%, a softening point of 280 ℃, and mesophase asphalt content of 100% could be obtained.

Key words: catalytic cracking cycle oil, thermal polycondensation, mesophase asphalt, settling separation, softening point