[1]赵星宇,申明周,蒋兴家,等.炼油厂重污油的脱盐脱水组合净化工艺[J].石化技术与应用,2023,3:170-175.
ZHAO Xing-yu,SHEN Ming-zhou,JIANG Xing-jia,et al.Combined process of desalination and dehydration for purifying heavy sump oil from refinery[J].Petrochemical technology & application,2023,3:170-175.
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炼油厂重污油的脱盐脱水组合净化工艺(PDF)
ZHAO Xing-yu,SHEN Ming-zhou,JIANG Xing-jia,et al.Combined process of desalination and dehydration for purifying heavy sump oil from refinery[J].Petrochemical technology & application,2023,3:170-175.
《石化技术与应用》[ISSN:1009-0046/CN:62-1138/TQ]
- 期数:
- 2023年3期
- 页码:
- 170-175
- 栏目:
- 出版日期:
- 2023-05-10
文章信息/Info
- Title:
- Combined process of desalination and dehydration for purifying heavy sump oil from refinery
- 文章编号:
- 1009-0045(2023)03-0170-06
- Author(s):
- ZHAO Xing-yu; SHEN Ming-zhou; JIANG Xing-jia; CAO Zhen-xing; CUI Xin-an
- (SEG Luoyang R&D Center of Technology,Luoyang 471003,China)
- Keywords:
- heavy sump oil from refinery; electric desalination; electrostatic coalescence; salt content; water content
- 分类号:
- TE 624.1
- DOI:
- DOI:10.19909/j.cnki.ISSN1009-0045.2023.03.0170
- 文献标识码:
- B
- 摘要:
- 针对中国石化某公司提供的3种不同性质的炼油厂重污油,利用现有的原油电脱盐技术,考察了系列组合脱盐脱水工艺试验下的污油净化处理效果,使处理后的污油满足掺炼于常减压装置的加工要求,即掺炼污油含盐(NaCl)质量浓度小于5 mg/L,含水质量分数小于0.3%。结果表明:对于盐、油泥含量不高而水含量较高的G 804/805类重污油,应直接采用90 ℃下的静电聚结脱盐脱水工艺,净化处理后的污油含盐质量浓度可小于2 mg/L,含水质量分数低于0.03%;对于水、油泥含量低而含盐量较高的G 103类重污油,应采用注水量为5%条件下的三级电脱盐净化工艺,净化处理后的污油含盐质量浓度可小于5 mg/L,含水质量分数小于0.03%;对于盐、水、油泥含量均超高的G 705类重污油,应采用“离心预处理+两级电脱盐”组合净化工艺,净化处理后的污油含盐质量浓度可小于5 mg/L,含水质量分数小于0.15%。
- Abstract:
- Based on the existing electric desalting technology for crude oil,3 types of refinery heavy sump oil with different properties provided by a company of SINOPEC were investigated for their treatment effect under a series of combined desalination and dehydration process tests,which made the treated sump oil to meet the processing requirements of atmospheric and vacuum blending with the salt mass concentration (NaCl) of sump oil of less than 5 mg/L,and the water mass fraction of less than 0.3%. The results showed that the electrostatic coalescence technology could be directly used for desalination and dehydration at 90 ℃ for the sump oil G 804/805 with low salt, sludge content and high water content. After purification, the salt mass concentration of sewage was less than 2 mg/L, and the water mass fraction was less than 0.03%. For the sump oil G 103 with low water,sludge content and high salt content, the three-stage electric desalination technology under the condition of 5% water injection should be adopted. After purification, the salt mass concentration of sewage was less than 5 mg/L,and the water mass fraction was less than 0.03%. For the sump oil G 705 with ultra-high salt, water and sludge content, the combined purification process technology of "centrifugal pretreatment + two-stage electric desalting" should be adopted. After purification, the salt content of sewage was less than 5 mg/L,and the water mass fraction was less than 0.15%.
参考文献/References
[1] 曹振兴,申明周. 油田三采助剂对原油性质的影响[J]. 当代化工, 2017, 46(2): 229-232.[2] 任满年,董力军. 炼油厂重污油回收方法的研究[J]. 石油炼制与化工, 2006, 37(1): 47-50.[3] 孙宇,胡建凯. 炼油厂重污油回炼新工艺的研究[J]. 石油化工技术与经济,2014,30(5):33-35.[4] 郭亮,唐应彪,崔新安,等. 炼厂污油静电聚结脱水研究[J]. 当代化工,2016,45(9): 2060-2062.[5] 孙宇,胡勇刚. 重污油脱水技术新进展[J]. 炼油与化工,2011,22(5): 8-10.[6] 李海华,王大寿,葛永睿,等. 污油净化处理技术进展[J].辽宁化工,2020,49(9):1124-1127.[7] 郑东龙. 清罐污油净化处理技术现场试验研究[D].北京:中国石油大学(北京),2020.[8] 张立阳. 炼厂清罐污油的净化技术研究[D].北京:中国石油大学(北京),2020.[9] 薛强,王鉴,艾广智. 油田污油处理技术研究进展[J].化学工程与装备,2008(2):93-94.[10] 王伟. 炼厂污水处理装置回收污油脱水研究[J].石化技术,2021,28(12):198-201.[11] 彭玉刚. 常减压蒸馏装置电脱盐工艺优化[D]. 大庆: 东北石油大学, 2017.[12] 蒋定建,方晓玲,李飞,等. 常减压蒸馏装置电脱盐优化操作及技术研究[J]. 现代化工, 2017,37(5): 174-177.[13] 王维华. 降低电脱盐电流的方法分析[J]. 广东化工,2017,44(19): 115-116.
备注/Memo
- 备注/Memo:
- 中国石油化工股份有限公司基金资助项目(项目编号:CLY 21090)
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2023-05-10