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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0108389 (2013-12-17) |
등록번호 | US-9598802 (2017-03-21) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 443 |
A process for recovering a primary polymer concentrate stream is provided. The process comprises routing a second mother liquor stream to a primary concentration zone to remove water from the second mother liquor stream to produce the primary polymer concentrate stream; wherein the primary concentra
A process for recovering a primary polymer concentrate stream is provided. The process comprises routing a second mother liquor stream to a primary concentration zone to remove water from the second mother liquor stream to produce the primary polymer concentrate stream; wherein the primary concentration zone comprises at least one ultrafiltration membrane. A process is also provided to recover sulfopolyester from the primary polymer concentrate stream and to produce articles therefrom.
1. A process for recovering a primary polymer concentrate stream, said process comprising: (A) contacting cut multicomponent fibers having a length of less than 25 millimeters with a treated aqueous stream in a fiber slurry zone to produce a cut multicomponent fiber slurry; wherein said cut multicom
1. A process for recovering a primary polymer concentrate stream, said process comprising: (A) contacting cut multicomponent fibers having a length of less than 25 millimeters with a treated aqueous stream in a fiber slurry zone to produce a cut multicomponent fiber slurry; wherein said cut multicomponent fibers comprise at least one water dispersible sulfopolyester and at least one water non-dispersible synthetic polymer immiscible with said water dispersible sulfopolyester; and wherein said treated aqueous stream is at a temperature of less than 40° C.;(B) contacting said cut multicomponent fiber slurry with a heated aqueous stream in a mix zone to produce a heated multicomponent fiber slurry;(C) routing said heated multicomponent fiber slurry to a fiber opening zone to remove a portion of said water dispersible sulfopolyester to produce an opened microfiber slurry;(D) routing said opened microfiber slurry to a primary solid liquid separation zone to produce said microfiber product stream and a first mother liquor stream; wherein said first mother liquor stream comprises water and said water dispersible sulfopolyester;(E) routing at least a portion of said first mother liquor stream to a second solid liquid separation zone to produce a secondary wet cake stream and a second mother liquor stream; wherein said second mother liquor stream comprises water and water dispersible sulfopolyester; and wherein said secondary wet cake stream comprises microfiber; and(F) routing said second mother liquor stream to a primary concentration zone to remove water from said second mother liquor stream to produce said primary polymer concentrate stream; wherein said primary concentration zone comprises at least one ultrafiltration membrane. 2. The process for recovering a primary polymer concentrate stream according to claim 1 further comprising recycling at least a portion of said primary polymer concentrate stream to said primary concentration zone to increase the water-dispersible sulfopolyester concentration of said primary polymer concentrate stream. 3. The process for recovering a primary polymer concentrate stream according to claim 1 further comprising recovering at least a portion of said sulfopolyester from said primary polymer concentrate stream in a secondary concentration zone to produce a melted polymer stream. 4. The process for recovering a primary polymer concentrate stream according to claim 1 further comprising regenerating said at least one ultrafiltration membrane. 5. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said sulfopolyester in said second mother liquor stream ranges from about 0.01 wt. % to about 7 wt. %. 6. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said sulfopolyester in said second mother liquor stream ranges from about 0.5 wt. % to about 10 wt. %. 7. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said primary concentration zone comprises a cross flow filtration device. 8. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said ultrafiltration membrane comprises at least one polymer selected from the group consisting of polysulfone (PS), polyethersulfone (PES), polyamide (PA), fluoro polymer, and cellulosic polymer. 9. The process for recovering a primary polymer concentrate stream according to claim 1 wherein the temperature of said second mother liquor stream ranges from about 10° C. to about 70° C. 10. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said primary concentration zone comprises at least one ultrafiltration membrane followed by at least one nanofiltration membrane. 11. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said ultrafiltration membrane in said primary concentration zone is contained in at least one spiral membrane cartridge. 12. The process for recovering a primary polymer concentrate stream according to claim 1 wherein the weight percent of sulfopolyester in said primary recovered water stream ranges from 0 to about 1 wt. %. 13. The process for recovering a primary polymer concentrate stream according to claim 1 wherein said primary polymer concentrate has a sulfopolyester concentration of at least 2 times that of said second mother liquor stream. 14. The process for recovering a primary polymer concentrate stream according to claim 13 wherein said primary polymer concentrate has a sulfopolyester concentration of at least 5 times that of said second mother liquor stream. 15. The process for recovering a primary polymer concentrate stream according to claim 1 wherein the cross flow filtration in the primary concentration zone is operated in batch or continuous mode. 16. The process for recovering a primary polymer concentrate stream according to claim 1 further comprising regenerating said at least one ultrafiltration membrane, wherein said ultrafiltration membrane is fouled. 17. The process for recovering primary polymer concentrate stream according to claim 16 wherein said regenerating comprises: (1) flushing said ultrafiltration membrane with treated water, (2) circulating an aqueous detergent solution compatible with said ultrafiltration membrane; and 3) flushing said ultrafiltration membrane with treated water to displace the aqueous detergent solution. 18. The process for recovering a primary polymer concentrate stream according to claim 17 wherein said aqueous detergent solution is at least one anionic detergent and water. 19. The process for recovering a primary polymer concentrate stream according to claim 18 wherein the concentration of said anionic detergent in the aqueous detergent solution can range from about 0.1 wt. % to about 5 wt. %. 20. The process for recovering a primary polymer concentrate stream according to claim 18 wherein said anionic detergent comprises alkylbenzene sulfonate having a C10-C16 alkyl group.
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