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纳米镍催化剂对胜利超稠油水热裂解降黏的影响
吴川¹,雷光伦¹,姚传进¹,　盖平原²,曹嫣镔²,李啸南²
(1.中国石油大学石油工程学院,山东青岛 266555;2.胜利油田采油工艺研究院,山东东营 257000)

摘要:

利用微乳液法合成纳米镍催化剂,采用透射电镜对其进行表征,在200 ℃时对超稠油进行水热裂解催化反应,通过气相色谱仪、元素分析仪、相对分子质量测定仪、红外光谱仪对反应前后稠油的物化性质进行分析。结果表明:水热裂解催化反应后,超稠油降黏率达90.36％,稠油胶质与沥青质含量减少,稠油相对分子质量下降,沥青质相对分子质量降低幅度最大;反应后稠油及其重质组分的氢碳原子数比增加,硫与氮含量减少,氧含量增加;稠油发生水热裂解反应的同时,存在沥青质的聚合反应,沥青质的裂解在降黏反应中起到了关键的作用;纳米镍催化剂促进了水热裂解反应,同时抑制了聚合反应;纳米镍催化剂协同作用使高温水与稠油发生反应,产生具有表面活性的醇类、酚类、羧酸类等物质,导致反应后稠油含氧量增加,黏度降低。

关键词: 稠油水热裂解纳米镍降黏

DOI：10.3969/j.issn.1673-5005.2011.01.033

分类号::TE 357.46

文献标识码:A

基金项目:中国石油化工集团公司先导性科技项目(P08057);中国石油大学(华东)研究生创新基金项目

Influence of nanonickl catalyst on viscosity reduction of Shengli extraheavy oil by aquathermolysis

WU Chuan¹, LEI Guanglun¹, YAO Chuanjin¹, GAI Pingyuan², CAO Yanbin², LI Xiaonan²

(1.College of Petroleum Engineering in China University of Petroleum, Qingdao 266555, China;2.Oil Production Technology Research Institute, Shengli Oilfield, Dongying 257000, China)

Abstract:

Nanonickel catalyst was synthesized by microemulsion method, characterized by transmission electron microscopy (TEM), and then used in the extraheavy oil aquathermolysis at 200 ℃. The physicochemical properties of heavy oil both before and after reaction were analyzed by using gas chromatography (GC), elemental analysis (EL), molecular weight analysis (VPO), fourier transform infrared (FTIR). The results show that the viscosity reduction ratio of extraheavy oil reaches 90.36％, the contents of resin and asphaltene decrease, and the average moleculars of heavy oil and asphaltene reduce after the catalytic aquathermolysis. The HC ratio in heavy oil, resin and asphaltene increases. The contents of sulfur and nitrogen decrease, but oxygen content increases in the heavy oil after treatment. A lot of polymerize reactions occurred in the course of aquathermolysis, and the nanonickel catalyst not only slowed down the polymerize reactions but also speeded up the aquathermolysis. The pyrolysis of asphaltene plays a very important role in synergism reactions between high temperature water and nanonickel catalyst during the catalytic aquathermolysis, and produces more substances such as alcohol, carboxylate and fatty acid which results in the viscosity reduction of heavy oil.

Key words: heavy oil aquathermolysis nanonickel viscosity reduction