[미국특허]
System and method for processing reactor polymerization effluent
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C08F-002/00
C08F-210/00
C08F-110/02
출원번호
US-0710912
(2012-12-11)
등록번호
US-8492492
(2013-07-23)
발명자
/ 주소
Mills, Andrew J.
Romig, Ralph W.
Loh, Ji Xian X.
출원인 / 주소
Chevron Phillips Chemical Company LP
대리인 / 주소
Conley Rose, P.C.
인용정보
피인용 횟수 :
3인용 특허 :
22
초록▼
A method of treating a polymerization reactor effluent stream comprising recovering the reactor effluent stream from the polymerization reactor, flashing the reactor effluent stream to form a flash gas stream, separating the flash gas stream into a first top stream, a first bottom stream, and a side
A method of treating a polymerization reactor effluent stream comprising recovering the reactor effluent stream from the polymerization reactor, flashing the reactor effluent stream to form a flash gas stream, separating the flash gas stream into a first top stream, a first bottom stream, and a side stream, wherein the side stream substantially comprises hexane, separating the first top stream into a second top stream and a second bottom stream, wherein the second bottom stream substantially comprises isobutane, and separating the second top stream into a third top stream and a third bottom stream; wherein the third top stream substantially comprises ethylene, and wherein the third bottom stream is substantially free of olefins.
대표청구항▼
1. A system for treating a polymerization reactor effluent stream from a polymerization reactor comprising: the polymerization reactor;the polymerization reactor effluent stream, wherein the polymerization reactor effluent stream is fed from the polymerization reactor to a flash chamber;the flash ch
1. A system for treating a polymerization reactor effluent stream from a polymerization reactor comprising: the polymerization reactor;the polymerization reactor effluent stream, wherein the polymerization reactor effluent stream is fed from the polymerization reactor to a flash chamber;the flash chamber;a polymer product stream, wherein the polymer product stream is recovered from the flash chamber;a flash gas stream, wherein the flash gas stream is fed from the flash chamber to a first column;the first column;a first column bottom stream, wherein the first column bottom stream is recovered from the first column;a first column side stream, wherein the first column side stream is fed from the first column to the polymerization reactor, and wherein the first side stream substantially comprises hexene;a first column overhead stream, wherein the first column overhead stream is recovered from the first column an accumulator, wherein the first column overhead stream is fed from the first column to the accumulator;an accumulator bottom stream, wherein the accumulator bottom stream is fed from the accumulator to the polymerization reactor, and wherein the accumulator bottom stream substantially comprises isobutane;an accumulator overhead stream, wherein the accumulator overhead stream is fed from the accumulator to a second column;the second column;a second column overhead stream, wherein the second column overhead stream substantially comprises ethylene; anda second column bottom stream, wherein the second column bottom stream is substantially free of olefins. 2. The system of claim 1, wherein the first column is configured to separate the flash gas stream by fractionation. 3. The system of claim 1, wherein the pressure of the flash gas stream in the flash gas chamber is substantially the same as the pressure of the flash gas stream within the first column. 4. The system of claim 1, wherein the concentration of the hexene in the polymerization reactor is controlled, at least in part, by the first column side stream. 5. A system for treating a polymerization reactor effluent stream from a polymerization reactor comprising: the polymerization reactor;the polymerization reactor effluent stream, wherein the polymerization reactor effluent stream is fed from the polymerization reactor to a flash chamber;the flash chamber;a polymer product stream, wherein the polymer product stream is recovered from the flash chamber;a flash gas stream, wherein the flash gas stream is fed from the flash chamber to a first column;the first column;a first column bottom stream, wherein the first column bottom stream is recovered from the first column;a first column side stream, wherein the first column side stream is fed from the first column to the polymerization reactor, and wherein the first side stream substantially comprises hexene;a first column overhead stream, wherein the first column overhead stream is recovered from the first column, wherein the first column overhead stream is fed from the first column to an accumulator, and further comprising:the accumulator;an accumulator overhead stream, wherein the accumulator overhead stream is fed from the accumulator to a second column;the second column;a second column overhead stream, wherein the second column overhead stream substantially comprises ethylene; anda second column bottom stream, wherein the second column bottom stream is substantially free of olefins. 6. A system for treating a polymerization reactor effluent stream from a polymerization reactor comprising: the polymerization reactor effluent stream, wherein the polymerization reactor effluent stream is fed from the polymerization reactor to a flash chamber;the flash chamber;a flash gas stream, wherein the flash gas stream is fed from the flash chamber to a first column;the first column;a first column overhead stream, wherein the first column overhead stream is fed from the first column to an accumulator;the accumulator;an accumulator bottom stream, wherein the accumulator bottom stream is fed from the accumulator to the polymerization reactor, and wherein the accumulator bottom stream substantially comprises isobutane;an accumulator overhead stream, wherein the accumulator overhead stream is fed from the accumulator to a second column;the second column;a second column overhead stream, wherein the second column overhead stream substantially comprises ethylene; anda second column bottom stream, wherein the second column bottom stream is substantially free of olefins. 7. The system of claim 6, wherein the first column is configured to separate the flash gas stream by fractionation. 8. The system of claim 6, wherein the accumulator is configured to separate the first column overhead stream by accumulation. 9. The system of claim 6, wherein the concentration of isobutane in the polymerization reactor is controlled, at least in part, by the isobutane recycle stream. 10. The system of claim 6, wherein the accumulator bottom stream comprises greater than about 95% isobutane and less than about 5% olefins. 11. The system of claim 6, further comprising a reflux stream, wherein at least a portion of the reflux stream is fed from the accumulator to the first column. 12. A system for treating a polymerization reactor effluent stream from a polymerization reactor comprising: the polymerization reactor effluent stream, wherein the polymerization reactor effluent stream is fed from the polymerization reactor to a flash chamber;a flash chamber;a flash gas stream, wherein the flash gas stream is fed from the flash chamber to a first column;the first column;a first column overhead stream, wherein the first column overhead stream is fluidicly communicated from the first column to an accumulator;the accumulator;an accumulator overhead stream, wherein the accumulator overhead stream is fed from the accumulator to a second column;the second column;a second column overhead stream, wherein the second column overhead stream substantially comprises ethylene; anda second column bottom stream, wherein the second column bottom stream is substantially free of olefins. 13. The system of claim 12, wherein the first column is configured to separate the flash gas stream by fractionation. 14. The system of claim 12, wherein the accumulator is configured to separate the first column overhead stream by accumulation. 15. The system of claim 12, wherein the second column is configured to separate the accumulator overhead stream by fractionation. 16. The system of claim 12, wherein the olefins comprise ethylene, hexene, or combinations thereof. 17. The system of claim 12, wherein the second column overhead stream comprises at least 90% by weight ethylene. 18. The system of claim 12, wherein the second column overhead stream comprises a recycle stream.
Jensen, Michael D.; Hawley, Gil R.; McDaniel, Max P.; Crain, Tony; Benham, Elizabeth A.; Martin, Joel L.; Yang, Qing, Acidic activator-supports and catalysts for olefin polymerization.
Hottovy John D. (Bartlesville OK) Lawrence Frederick C. (Bartlesville OK) Lowe Barry W. (Bartlesville OK) Fangmeier James S. (Bartlesville OK), Apparatus and method for producing ethylene polymer.
Yang, Qing; Jayaratne, Kumudini C.; Jensen, Michael D.; McDaniel, Max P.; Martin, Joel L.; Thorn, Matthew G.; Lanier, Jerry T.; Crain, Tony R., Dual metallocene catalysts for polymerization of bimodal polymers.
Yang, Qing; Jayaratne, Kumudini C.; Jensen, Michael D.; McDaniel, Max P.; Martin, Joel L.; Thorn, Matthew G.; Lanier, Jerry T.; Crain, Tony R., Dual metallocene catalysts for polymerization of bimodal polymers.
Hottovy John D. ; Hensley Harvey D. ; Przelomski David J. ; Cymbaluk Teddy H. ; Franklin ; III Robert K. ; Perez Ethelwoldo P., High solids slurry polymerization.
Jenkins ; III John M. (So. Charleston WV) Jones Russell L. (Chapel Hill NC) Jones Thomas M. (So. Charleston WV) Beret Samil (Danville CA), Method for fluidized bed polymerization.
Kreischer Bruce E. ; Verser Donald W. ; Hein James E., Process and apparatus for recovering diluent, monomer, and comonomer from a polymerization reactor effluent.
Hanson Donald O. (Bartlesville OK), Process and apparatus for separating diluents from solid polymers utilizing a two-stage flash and a cyclone separator.
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