润滑油加氢技术工程化问题及对策
|
摘要
简要介绍国内润滑油加氢技术工程化应用的现状,分析润滑油加氢工程化过程中遇到的问题,包括难以满足Cr-Mo钢材料先升温后升压要求、加氢基础油氧化安定性差、加氢补充精制温度难以达到活化温度要求、加氢重质基础油浊点升高并出现絮状物或浑浊、脱硫反应器差压高、加氢裂化反应器压力降上升快(加氢裂化前部保护反应器压力降一年时间内从80 k Pa上升至550 k Pa,停工撇头后,压力降5个月时间从80 k Pa上升至650 k Pa)等。对产生这些问题的原因进行了详细分析,提出了应对措施。
The engineering of lube oil hydrotreating process in China is introduced and the problems encountered in the engineering are analyzed,including the difficulty in meeting the requirements of temperature rise and pressure rise for Cr-Mo steel,poor oxidation stability of base oil,difficulty to reach the activation temperature of hydrofining,high cloud point of base oil,high flocculate or turbidity,high differential pressure of desulfurization reactor,rapid pressure drop of hydrocracking reactor( The pressure drop of the protection reactor of a hydrocracking unit rose to 550 k Pa from 80 k Pa in one year. After unit's shutdown for topping,the pressure drop rose to 650 k Pa from 80 k Pa in 5 months),etc. The causes of all these problems are analyzed in detail,and associated countermeasures are recommended.
The engineering of lube oil hydrotreating process in China is introduced and the problems encountered in the engineering are analyzed,including the difficulty in meeting the requirements of temperature rise and pressure rise for Cr-Mo steel,poor oxidation stability of base oil,difficulty to reach the activation temperature of hydrofining,high cloud point of base oil,high flocculate or turbidity,high differential pressure of desulfurization reactor,rapid pressure drop of hydrocracking reactor( The pressure drop of the protection reactor of a hydrocracking unit rose to 550 k Pa from 80 k Pa in one year. After unit's shutdown for topping,the pressure drop rose to 650 k Pa from 80 k Pa in 5 months),etc. The causes of all these problems are analyzed in detail,and associated countermeasures are recommended.
引文
[1]林荣兴.采用加氢工艺生产HVIⅢ4号基础油[J].上海化工,2012,37(7):14-18.
[2]李立权,叶杏园,李家民,等.润滑油加氢处理装置的设计及工业生产[J].炼油设计,1999,29(5):17-21.
[3]黄灏,蒲祖国,苏光华,等.加氢改质润滑油基础油的生产与应用[J].石油炼制与化工,2003,34(9):44-48.
[4]尚振宁,关明华,姚春蕾.石蜡烃择形异构化技术的工业应用[J].炼油技术与工程,2012,42(6):18-20.
[5]胡胜,田志坚,辛公华,等.润滑油基础油异构化和非对称裂化(IAC)脱蜡技术工业应用[J].石油炼制与化工,2011,42(5):57-60.
[6]水天德.现代润滑油生产工艺[M].北京:中国石化出版社,1997:370-372.
[7]屈清洲,蒋冠杰.利用加氢裂化全馏分尾油生产润滑油和石蜡[J].中外能源,2009,14(8):80-85.
[8]戴鉴.中国石油润滑油基础油生产技术及产品特点[J].石油商技,2004,22(4):5-8.
[9]屈清洲,徐丽秋.中国石油润滑油基础油生产技术现状及发展[J].润滑油,2003,18(1):1-10.
[10]王鲁强,李国红,郭庆洲,等.费-托合成蜡加氢提质生产基础油和特种蜡技术的工业应用[J].石油炼制与化工,2016,47(6):5-9.
[11]辛秀婷,孙万赋,栾利新.环烷基高压加氢基础油光安定性影响因素的研究[J].润滑油,2010,25(2):31.
[12]王会东,韩志群,王仁安,等.不同紫外光照条件下加氢基础油性质变化研究[J].润滑油,2003,18(1):49.
[13]黄韬,程型国,高宏,等.150BS光亮油中絮状物产生的原因及对油品性能的影响[J].炼油技术与工程,2008,38(6):15-19.
[14]程红芳,曾金明,何峰,等.稳定生产120BS加氢光亮油的探索与实践[J].石油炼制与化工,2013,44(12):81-84.
[15]张戈.中国石油3套润滑油高压加氢装置运行情况分析[J].当代化工,2004,33(1):34-36.
[16]王启升,冯全,王娟.高压加氢装置润滑油基础油产品浑浊分析与应对[J].中国石油石化,2017(2):99-100.
[17]王金生,陈玉全,温万春.润滑油加氢装置保护反应器床层压降升高的原因及对策分析[J].化工中间体,2015(2):35-36.
[18]徐玉芝,纪春怡.加氢异构脱蜡基础油与溶剂精制基础油性能对比考察[J].炼油与化工,2004,22(2):1-3.
[19]KARTZMARK R,GILBERT J B.Hydrotreat naphthenic lube stocks[J].Hydrocarbon Processing,1967,46(9):143-148.
[20]GILBERT J B,WALKER J M.Manufacture of lubricating oils by hydrocracking[J].World Petroleum Congress Proceedings,1971(4):147-157.
[21]黄为民,祖德光,石亚华,等.加氢处理的润滑油基础油光安定性影响因素的研究[J].石油学报(石油加工),2000,16(4):31-36.
[22]吴景龙,汪鹏飞,宫卫国,等.基础油加氢工艺中反应参数调控的工业研究[J].炼油技术与工程,2016,46(6):25-29.
[2]李立权,叶杏园,李家民,等.润滑油加氢处理装置的设计及工业生产[J].炼油设计,1999,29(5):17-21.
[3]黄灏,蒲祖国,苏光华,等.加氢改质润滑油基础油的生产与应用[J].石油炼制与化工,2003,34(9):44-48.
[4]尚振宁,关明华,姚春蕾.石蜡烃择形异构化技术的工业应用[J].炼油技术与工程,2012,42(6):18-20.
[5]胡胜,田志坚,辛公华,等.润滑油基础油异构化和非对称裂化(IAC)脱蜡技术工业应用[J].石油炼制与化工,2011,42(5):57-60.
[6]水天德.现代润滑油生产工艺[M].北京:中国石化出版社,1997:370-372.
[7]屈清洲,蒋冠杰.利用加氢裂化全馏分尾油生产润滑油和石蜡[J].中外能源,2009,14(8):80-85.
[8]戴鉴.中国石油润滑油基础油生产技术及产品特点[J].石油商技,2004,22(4):5-8.
[9]屈清洲,徐丽秋.中国石油润滑油基础油生产技术现状及发展[J].润滑油,2003,18(1):1-10.
[10]王鲁强,李国红,郭庆洲,等.费-托合成蜡加氢提质生产基础油和特种蜡技术的工业应用[J].石油炼制与化工,2016,47(6):5-9.
[11]辛秀婷,孙万赋,栾利新.环烷基高压加氢基础油光安定性影响因素的研究[J].润滑油,2010,25(2):31.
[12]王会东,韩志群,王仁安,等.不同紫外光照条件下加氢基础油性质变化研究[J].润滑油,2003,18(1):49.
[13]黄韬,程型国,高宏,等.150BS光亮油中絮状物产生的原因及对油品性能的影响[J].炼油技术与工程,2008,38(6):15-19.
[14]程红芳,曾金明,何峰,等.稳定生产120BS加氢光亮油的探索与实践[J].石油炼制与化工,2013,44(12):81-84.
[15]张戈.中国石油3套润滑油高压加氢装置运行情况分析[J].当代化工,2004,33(1):34-36.
[16]王启升,冯全,王娟.高压加氢装置润滑油基础油产品浑浊分析与应对[J].中国石油石化,2017(2):99-100.
[17]王金生,陈玉全,温万春.润滑油加氢装置保护反应器床层压降升高的原因及对策分析[J].化工中间体,2015(2):35-36.
[18]徐玉芝,纪春怡.加氢异构脱蜡基础油与溶剂精制基础油性能对比考察[J].炼油与化工,2004,22(2):1-3.
[19]KARTZMARK R,GILBERT J B.Hydrotreat naphthenic lube stocks[J].Hydrocarbon Processing,1967,46(9):143-148.
[20]GILBERT J B,WALKER J M.Manufacture of lubricating oils by hydrocracking[J].World Petroleum Congress Proceedings,1971(4):147-157.
[21]黄为民,祖德光,石亚华,等.加氢处理的润滑油基础油光安定性影响因素的研究[J].石油学报(石油加工),2000,16(4):31-36.
[22]吴景龙,汪鹏飞,宫卫国,等.基础油加氢工艺中反应参数调控的工业研究[J].炼油技术与工程,2016,46(6):25-29.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |