RU2011102767A - METHOD FOR ISOLATING P-XYLENE FROM A MIXTURE OF C8 AND C9-AROMATIC HYDROCARBONS AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. The method of separation of p-xylene from a feed stream containing C8 aromatic hydrocarbons and at least one C9 aromatic hydrocarbon component, comprising:! (a) contacting a first adsorbent containing Y-zeolite or X-zeolite with a feed stream and a first desorbent stream containing a first desorbent having a boiling point of at least 150 ° C. in the first adsorption separation zone to obtain a first extract stream, containing p-xylene and a first desorbent, and a first raffinate stream containing p-xylene depleted C8 aromatic hydrocarbons, a C9 aromatic hydrocarbon component and a first desorbent; ! (b) supplying a first extract stream to the distillation zone of the extract to obtain a second desorbent stream containing the first desorbent and a p-xylene stream; ! (c) supplying a first raffinate stream to the raffinate distillation zone to obtain a third desorbent stream containing the first desorbent and a C9 aromatic hydrocarbon component and a raffinate stream containing p-xylene depleted C8 aromatic hydrocarbons; and! (d) supplying at least a portion of a third desorbent stream and a desorbent stream containing a second desorbent to a second adsorption separation zone containing a second adsorbent to obtain a second extract stream containing a first desorbent and a second desorbent, and a second raffinate stream containing C9 aromatic hydrocarbon component and a second desorbent. ! 2. The method according to claim 1, in which the first desorbent is selected from the group consisting of p-diethylbenzene, diethyltoluene, tetralin, derivatives of tetralin, indane, naphthalene, methylnaphthalene and p-dimethylnaphthale

Claims (10)

1. The method of separation of p-xylene from a feed stream containing C ₈ -aromatic hydrocarbons and at least one C ₉ -aromatic hydrocarbon component, including: (a) contacting a first adsorbent containing Y-zeolite or X-zeolite with a feed stream and a first desorbent stream containing a first desorbent having a boiling point of at least 150 ° C. in the first adsorption separation zone to obtain a first extract stream, containing p-xylene and a first desorbent, and a first raffinate stream containing depleted p-xylene C ₈ -aromatic hydrocarbons, C ₉ -aromatic hydrocarbon component and a first desorbent; (b) supplying a first extract stream to the distillation zone of the extract to obtain a second desorbent stream containing the first desorbent and a p-xylene stream; (c) supplying a first raffinate stream to the raffinate distillation zone to obtain a third desorbent stream containing the first desorbent and a C ₉ aromatic hydrocarbon component and a raffinate stream containing C ₈ aromatic hydrocarbons depleted in p-xylene; and (d) feeding at least a portion of a third desorbent stream and a desorbent stream containing a second desorbent to a second adsorption separation zone containing a second adsorbent to obtain a second extract stream containing a first desorbent and a second desorbent, and a second raffinate stream containing C _{9 is an} aromatic hydrocarbon component and a second desorbent. 2. The method according to claim 1, in which the first desorbent is selected from the group consisting of p-diethylbenzene, diethyltoluene, tetralin, derivatives of tetralin, indane, naphthalene, methylnaphthalene and p-dimethylnaphthalene. 3. The method according to claim 1, in which in the distillation zone of the raffinate additionally receive a fourth desorbent stream, which has a lower weight concentration of C ₉ aromatic hydrocarbons than the weight concentration of C ₉ aromatic hydrocarbons in the third desorbent stream, and at least , a portion of the fourth desorbent stream is sent to step (a) as at least a portion of the first desorbent stream. 4. The method according to claim 1, further comprising supplying a second stream of extract to the second distillation zone of the extract to obtain a fifth desorbent stream containing the first desorbent, and recycling at least a portion of the fifth desorbent stream to step (a) as at least at least part of the first desorbent stream. 5. The method according to claim 1, further comprising recirculating at least a portion of the second desorbent stream and / or the third desorbent stream to step (a) as at least a portion of the first desorbent stream. 6. The method according to claim 1, further comprising recirculating at least a portion of the second extract stream to the first distillation zone of the extract. 7. The method according to claim 1, in which the first desorbent stream contains not more than 25 wt.% With ₉ aromatic hydrocarbons. 8. The method according to claim 1, in which the first adsorption separation zone is a pseudo-moving bed adsorption separation zone, operating in countercurrent mode at a temperature of from 20 to 300 ° C and a pressure of from 1 to 40 bar (g), the zeolite of the first the adsorbent additionally contains barium. 9. A device for separating p-xylene from a feed stream containing C ₈ -aromatic hydrocarbons and at least one C ₉ -aromatic hydrocarbon component, including: (a) a first adsorption separation zone for separating p-xylene from a feed stream comprising a first adsorbent chamber containing a first adsorbent; (b) a supply line for fluid communication of the feed stream with the first adsorption separation zone; (c) a desorbent conduit providing fluid communication of the first desorbent with the first adsorption separation zone; (d) a first extract distillation zone comprising an extract distillation column; (e) a pipe for the first extract, providing fluid communication between the first adsorption separation zone and the first distillation zone of the extract; (f) a raffinate distillation zone comprising a raffinate distillation column; (g) a pipeline for a first raffinate, providing fluid communication between the first adsorption separation zone and the raffinate distillation zone; (h) a second adsorption separation zone for separating a C ₉ aromatic hydrocarbon component from the first desorbent, including a second adsorbent; the chamber in which the second adsorbent is located; i) a pipeline for C ₉ aromatic hydrocarbons, providing fluid communication with the C ₉ aromatic hydrocarbon component and the first desorbent from the raffinate distillation zone, with a second adsorption separation zone; and (j) a recirculation conduit for fluid communication of the first desorbent from the first distillation zone of the extract and / or the distillation zone of the raffinate with the first adsorption separation zone. 10. The device according to claim 1, further comprising a pipe for p-xylene, providing a message on the fluid from the first distillation zone of the extract, a pipeline for a second desorbent, providing a message on the fluid from the first distillation zone of the extract, and a pipeline for raffinate, providing fluid communication from the raffinate distillation zone.