汽油加氢装置降辛烷值损失优化控制
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摘要
针对吉林石化PRIME G+汽油加氢脱硫装置国Ⅴ质量升级改造后,存在脱硫深度较同类装置大,辛烷值损失大的实际问题,通过对影响装置辛烷值损失的因素进行深入分析,在保证催化剂使用寿命的前提下,通过调整选择性加氢反应温度、氢烃比、轻汽油采出比例、急冷烃以及加氢脱硫反应温度等工艺控制手段,尽量减少装置的辛烷值损失,提出降低装置辛烷值损失的优化控制方案,以期在今后较好地指导生产。
There are practical problems of higher desulfurization depth and greater loss of octane number in PRIME G+ gasoline Hydrodesulfurization Unit of Jilin Petrochemical Company after the upgrading of China V quality.On the premise of guaranteeing the service life of catalyst,this paper proposes an optimized control scheme to reduce the loss of octane number in the plant as much as possible in order to better guide production in the future by deeply analyzing the factors affecting the loss of octane number and adjusting process control measures such as selective hydrogenation reaction temperature,hydrogen-hydrocarbon ratio,light gasoline recovery ratio,quench hydrocarbon and hydrodesulfurization reaction temperature.
There are practical problems of higher desulfurization depth and greater loss of octane number in PRIME G+ gasoline Hydrodesulfurization Unit of Jilin Petrochemical Company after the upgrading of China V quality.On the premise of guaranteeing the service life of catalyst,this paper proposes an optimized control scheme to reduce the loss of octane number in the plant as much as possible in order to better guide production in the future by deeply analyzing the factors affecting the loss of octane number and adjusting process control measures such as selective hydrogenation reaction temperature,hydrogen-hydrocarbon ratio,light gasoline recovery ratio,quench hydrocarbon and hydrodesulfurization reaction temperature.
引文
[1]乔景辉,李程飞,周雪梅.吉化PRIME G+装置国Ⅴ质量升级技术方案及运行分析[J].化工科技,2015,23(6):34-37.
[2]关洪涛.汽油加氢装置国Ⅴ汽油质量升级改造浅析[J].中国石油和化工标准与质量,2016,46(7):16-19.
[3]吴成美,周柏诚,候翔天.国Ⅴ工况下汽油加氢装置操作条件变化及其产品收率和质量的影响[J].化工科技,2015,23(2):59-62.
[4]罗玉树.FCC汽油加氢辛烷值损失大的原因分析及对策[J].加工工艺,2016,46(7):16-19.
[5]樊连连,高晓东,习远兵,等.FCC汽油选择性加氢脱硫单元产品辛烷值的影响因素分析[J].炼油技术与工程,2014,44(10):70-73.
[6]李金芝,龙军,赵毅,等.1-戊烯骨架异构反应的热力学分析[J].石油学报:石油加工,2013,29(6):929-935.
[7]张强,周洪涛,孙守华,等.FCC汽油选择性加氢脱硫过程中烃类组成与辛烷值损失的关系[J].石油炼制与化工,2010,41(9):46-49.
[8]花飞,钟瑞,龚朝兵,等.催化汽油加氢脱硫装置汽油辛烷值损失的原因分析及措施[J].石化技术与应用,2016,34(4):329-335.
[9]徐仁飞.GARDES工艺技术在生产满足国V排放标准汽油组分中的应用[J].石油炼制与化工,2016,47(7):9-13.
[10]唐梦瑶,王翛嫄.降低汽油加氢装置辛烷值损失的优化措施[J].石油化工应用,2017,36(11):140-150.
[11]接瑜.催化汽油加氢脱硫装置国V升级改造设计[J].石油与天然气化工,2017,46(4):11-15.
[12]熊超,谢恒杰.汽油加氢生产工艺的对比和分析[J].化工管理,2017(3):94.
[13]向永生,王玉兴,崔彦君,等.GARDES系列加氢催化剂在催化裂化汽油加氢补充脱硫装置的工业应用[J].石化技术与应用,2015(1):50-53.
[14]杨黎峰,刘昕.GARDES技术催化汽油加氢装置性能评价[J].炼油与化工,2017,28(6):10-13.
[2]关洪涛.汽油加氢装置国Ⅴ汽油质量升级改造浅析[J].中国石油和化工标准与质量,2016,46(7):16-19.
[3]吴成美,周柏诚,候翔天.国Ⅴ工况下汽油加氢装置操作条件变化及其产品收率和质量的影响[J].化工科技,2015,23(2):59-62.
[4]罗玉树.FCC汽油加氢辛烷值损失大的原因分析及对策[J].加工工艺,2016,46(7):16-19.
[5]樊连连,高晓东,习远兵,等.FCC汽油选择性加氢脱硫单元产品辛烷值的影响因素分析[J].炼油技术与工程,2014,44(10):70-73.
[6]李金芝,龙军,赵毅,等.1-戊烯骨架异构反应的热力学分析[J].石油学报:石油加工,2013,29(6):929-935.
[7]张强,周洪涛,孙守华,等.FCC汽油选择性加氢脱硫过程中烃类组成与辛烷值损失的关系[J].石油炼制与化工,2010,41(9):46-49.
[8]花飞,钟瑞,龚朝兵,等.催化汽油加氢脱硫装置汽油辛烷值损失的原因分析及措施[J].石化技术与应用,2016,34(4):329-335.
[9]徐仁飞.GARDES工艺技术在生产满足国V排放标准汽油组分中的应用[J].石油炼制与化工,2016,47(7):9-13.
[10]唐梦瑶,王翛嫄.降低汽油加氢装置辛烷值损失的优化措施[J].石油化工应用,2017,36(11):140-150.
[11]接瑜.催化汽油加氢脱硫装置国V升级改造设计[J].石油与天然气化工,2017,46(4):11-15.
[12]熊超,谢恒杰.汽油加氢生产工艺的对比和分析[J].化工管理,2017(3):94.
[13]向永生,王玉兴,崔彦君,等.GARDES系列加氢催化剂在催化裂化汽油加氢补充脱硫装置的工业应用[J].石化技术与应用,2015(1):50-53.
[14]杨黎峰,刘昕.GARDES技术催化汽油加氢装置性能评价[J].炼油与化工,2017,28(6):10-13.
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