IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0840420
(2007-08-17)
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등록번호 |
US-7686946
(2010-04-23)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
13 |
초록
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One exemplary embodiment can include a method of altering a feed to a transalkylation zone by changing a destination of a stream rich in an aromatic C9 for increasing production of at least one of benzene, toluene, para-xylene, and an aromatic gasoline blend. The method can include providing the str
One exemplary embodiment can include a method of altering a feed to a transalkylation zone by changing a destination of a stream rich in an aromatic C9 for increasing production of at least one of benzene, toluene, para-xylene, and an aromatic gasoline blend. The method can include providing the stream rich in an aromatic C9 from a first fractionation zone that receives an effluent from a second fractionation zone. The second fractionation zone may produce a stream rich in at least one of benzene and toluene. The stream rich in the aromatic C9 can be at least partially comprised in at least one of the feed to the transalkylation zone and the aromatic gasoline blend.
대표청구항
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What is claimed is: 1. A method of altering a feed to a transalkylation zone by changing a destination of at least one of a first stream rich in an aromatic C9 and a second stream rich in an aromatic C9 for increasing production of at least one of benzene, toluene, para-xylene, and an aromatic gaso
What is claimed is: 1. A method of altering a feed to a transalkylation zone by changing a destination of at least one of a first stream rich in an aromatic C9 and a second stream rich in an aromatic C9 for increasing production of at least one of benzene, toluene, para-xylene, and an aromatic gasoline blend, comprising: a) providing the first stream rich in an aromatic C9 from a first fractionation zone that receives an effluent from a second fractionation zone wherein the second fractionation zone produces a stream rich in at least one of benzene and toluene, wherein the first stream rich in the aromatic C9 is at least partially comprised in at least one of the feed to the transalkylation zone and the aromatic gasoline blend; b) providing an aromatic C8+ hydrocarbon stream to a third fractionation zone to produce a stream rich in aromatic C8− hydrocarbons and a stream rich in aromatic C9+ hydrocarbons; and c) passing the stream rich in aromatic C9+ hydrocarbons from the third fractionation zone to a last fractionation zone to produce a second stream rich in an aromatic C9, wherein the second stream rich in the aromatic C9 is at least partially comprised in at least one of the feed to the transalkylation zone and the aromatic gasoline blend. 2. The method according to claim 1, wherein the first fractionation zone further comprises a column providing a top stream rich in an aromatic C8− and a bottom stream as the first stream rich in the aromatic C9. 3. The method according to claim 2, further comprising communicating a purge stream with the bottom stream. 4. The method according to claim 3, wherein the purge stream is comprised in a fuel oil. 5. The method according to claim 1, wherein the first fractionation zone further comprises a column providing a top stream rich in an aromatic C8−, a bottom stream rich in an aromatic C10+, and a side stream as the first stream rich in the aromatic C9. 6. The method according to claim 5, wherein the side stream comprises at least about 70%, by weight, the aromatic C9. 7. The method according to claim 5, wherein the side stream comprises at least about 90%, by weight, the aromatic C9. 8. The method according to claim 1, wherein the first fractionation zone comprises a column receiving the feed from the second fractionation zone; and limiting the production of the aromatic gasoline blend to alter the feed to the transalkylation zone. 9. The method according to claim 1, further comprising: passing and limiting a feed through a para-xylene-separation zone to increase the production of the aromatic gasoline blend. 10. The method according to claim 1, further comprising: limiting the toluene and the aromatic gasoline blend production rates for increasing a para-xylene production rate. 11. The method according to claim 1, further comprising: limiting the para-xylene and the aromatic gasoline blend production rates for increasing a toluene production rate. 12. The method according to claim 11, wherein the first stream rich in the aromatic C9 is sent to the transalkylation zone. 13. The method according to claim 1, wherein the second fractionation zone comprises a benzene column and a toluene column. 14. The method according to claim 1, further comprising: limiting the para-xylene and the aromatic gasoline blend production rates for increasing a benzene production rate. 15. The method according to claim 14, wherein the first stream rich in the aromatic C9 is sent to the aromatic gasoline blend. 16. A method of altering a feed to a reaction zone for increasing production of at least one of benzene, toluene, para-xylene, and an aromatic gasoline blend, comprising: a) providing a first stream rich in an aromatic C9 from a first fractionation zone; b) passing an effluent stream from a second fractionation zone to the first fractionation zone, the second fractionation zone producing a stream rich in at least one of benzene and toluene; c) providing an aromatic C8+ hydrocarbon stream to a third fractionation zone to produce a stream rich in aromatic C8− hydrocarbons and a stream rich in aromatic C9+ hydrocarbons; d) passing the stream rich in aromatic C9+ hydrocarbons from the third fractionation zone to a last fractionation zone to produce a second stream rich in an aromatic C9; e) passing at least a portion of the first stream rich in the aromatic C9 to at least one of the reaction zone and the aromatic gasoline blend; f) passing at least a portion of the second stream rich in the aromatic C9 to at least one of the reaction zone and the aromatic gasoline blend; g) regulating a quantity of at least one of the first stream rich in the aromatic C9 and the second stream rich in the aromatic C9 passing to the reaction zone. 17. The method according to claim 16, wherein the first fractionation zone further comprises a column providing a top stream rich in an aromatic C8− , a bottom stream rich in an aromatic C10+, and a side stream as the first stream rich in the aromatic C9. 18. The method according to claim 17, wherein the side stream comprises at least about 70%, by weight, the aromatic C9. 19. The method according to claim 17, wherein the side stream comprises at least about 90%, by weight, the aromatic C9. 20. A method for increasing production of at least one of benzene, toluene, para-xylene, and an aromatic gasoline blend, comprising: a) providing a first stream rich in an aromatic C9 from a first fractionation zone; b) passing an effluent stream rich in C8+ aromatic hydrocarbon from a second fractionation zone to the first fractionation zone, the second fractionation zone producing a stream rich in at least one of benzene and toluene; c) providing an aromatic C8+ hydrocarbon stream to a third fractionation zone to produce a stream rich in aromatic C8− hydrocarbons and a stream rich in aromatic C9+ hydrocarbons; d) passing the stream rich in aromatic C8− hydrocarbons from the third fractionation zone to a para-xylene-separation zone; e) passing the stream rich in aromatic C9+ hydrocarbons from the third fractionation zone to a last fractionation zone to produce a second stream rich in an aromatic C9; f) passing at least a portion of the first stream rich in the aromatic C9 to at least one of the reaction zone and the aromatic gasoline blend; g) passing at least a portion of the second stream rich in the aromatic C9 to at least one of the reaction zone and the aromatic gasoline blend; g) regulating a quantity of at least one of the first stream rich in the aromatic C9 and the second stream rich in the aromatic C9 passing to the reaction zone.
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