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    • 1. 发明授权
    • Process for isomerizing and dehydrogenating aromatic compounds containing eight carbon atoms with different catalysts
    • 用不同催化剂异构化和脱氢含有8个碳原子的芳族化合物的方法
    • US06271429B1
    • 2001-08-07
    • US09172290
    • 1998-10-14
    • Jean-François JolyJulia Magne-DrischVincent CoupardFabio AlarioGérard MiquelMarc Reymond
    • Jean-François JolyJulia Magne-DrischVincent CoupardFabio AlarioGérard MiquelMarc Reymond
    • C07C522
    • C07C5/2724C07C2529/04C07C2529/06C07C15/067
    • A process for isomerising a feed comprising aromatic compounds containing 8 carbon atoms is carried out in two steps: an isomerisation step and a dehydrogenation step. In FIG. 1, the feed to be treated is introduced into isomerisation zone R1 via line 1. Substantially pure hydrogen is introduced into line 1 via line 12 and recycled hydrogen is introduced into line 1 via line 13. Hydrogen which circulates in line 13 is purged via line 15. The effluent from isomerisation zone R1 is sent to a separation zone S1 via line 2. In S1, hydrogen contained in the effluent is isolated and recycled to the inlet to isomerisation zone R1 via line 13, the remaining effluent being evacuated from this separation zone S1 via line 3. The fluid contained in line 3 is heated in an oven F1 then evacuated therefrom via line 4. The effluent leaving the oven is enriched in recycled hydrogen via line 14 then it is introduced into dehydrogenation zone R2. The effluent from zone R2 is sent via line 5 to separation zone S2. In S2, hydrogen contained in the effluent is isolated and recycled to the inlet to dehydrogenation zone R2 via line 14, the remainder of the effluent being evacuated from separation zone S2 via line 6. Hydrogen which circulates in line 14 is purged via line 16.
    • 异构化含有8个碳原子的芳族化合物的进料异构化方法分两步进行:异构化步骤和脱氢步骤。 在图 1,待处理的进料通过管线1被引入异构化区域R1中。通过管线12将基本纯的氢气引入管线1中,再循环的氢气通过管线13引入管线1中。在管线13中循环的氢气通过管线 来自异构化区域R1的流出物通过管线2被送到分离区域S1中。在S1中,流出物中包含的氢气被分离并通过管线13再循环到异构化区域R1的入口,剩余的流出物从该分离 管线3中包含的流体在烘箱F1中加热,然后通过管线4从其中排出。离开烘箱的流出物经由管线14富集回收的氢气,然后将其引入脱氢区域R2。 来自区域R2的流出物通过管线5输送到分离区域S2。 在S2中,流出物中所含的氢被分离并通过管线14再循环到脱氢区R2的入口,剩余的流出物通过管线6从分离区S2排出。在管线14中循环的氢通过管线16被清除。