IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0787898
(1991-11-05)
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발명자
/ 주소 |
- Bikson Benjamin (Brookline MA) Giglia Salvatore (Norwood MA)
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출원인 / 주소 |
- Praxair Technology, Inc. (Danbury CT 02)
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인용정보 |
피인용 횟수 :
24 인용 특허 :
0 |
초록
▼
An annular double ended hollow fiber bundle, a fluid separation apparatus comprising the annular double ended hollow fiber bundle having bores open at both ends of the hollow fibers embedded in the two tubesheets enclosed in a shell having multiple ports, a fluid entrance port, a non-permeate exit p
An annular double ended hollow fiber bundle, a fluid separation apparatus comprising the annular double ended hollow fiber bundle having bores open at both ends of the hollow fibers embedded in the two tubesheets enclosed in a shell having multiple ports, a fluid entrance port, a non-permeate exit port and at least one permeate exit port, wherein said double ended hollow fiber bundle is encased in an essentially impermeable film barrier except for entrance regions situated in selected areas between the tubesheets and to processes for separating fluids mixtures.
대표청구항
▼
A fluids separation apparatus containing a hollow fiber membrane bundle, wherein permeate fluid can be withdrawn from both ends of the hollow fiber bundle while maintaining either concurrent or countercurrent fluid flow throughout the bundle, comprising: means for enabling withdrawal of permeate flu
A fluids separation apparatus containing a hollow fiber membrane bundle, wherein permeate fluid can be withdrawn from both ends of the hollow fiber bundle while maintaining either concurrent or countercurrent fluid flow throughout the bundle, comprising: means for enabling withdrawal of permeate fluid from both ends of the hollow fiber membrane bundle, and for enabling the introduction of feed fluid to the external surface of the hollow fibers, from an external fluid feed port, or through the center core tube, for either co-current or countercurrent flow across the hollow fiber bundle, including, (a) a shell enclosing the hollow fiber membrane bundle, said shell having a fluid feed port, a non-permeate fluid port, and at least one permeate fluid exit port; and (b) an annular double ended hollow fiber membrane bundle comprising: (i) a center core tube having perforated holes in the wall thereof located at selected points along the longitudinal length of said center core tube, said perforated holes being adapted to permit the flow of feed fluid from within said one tube to the exterior surface of the hollow fibers, or to permit the flow of non-permeate gas from the exterior surface of the hollow fibers into said core tube; (ii) a hollow fiber bundle in a cylindrical shape positioned around the exterior of the center core tube, with the hollow fibers extending essentially the length of the interior of the shell with both ends of the fibers embedded in, and extending between and through, tubesheets in fluid tight relationship thereto, with the open bores of the hollow fibers opening on the exterior surfaces of said tubesheets for withdrawal of permeate from both ends of the hollow fiber bundle; (iii) an essentially impermeable film barrier encasing the entire longitudinal length of the exposed hollow fibers of the hollow fiber bundle between the tubesheets, except for selected non-encased circumferential regions adapted to direct the flow of feed fluid to the exterior surface of the hollow fibers from a shell fluid feed port, or to permit the flow of non-permeate gas from the exterior surface of the hollow fibers to a shell non-permeable fluid port, said non-encased circumferential regions being adapted, together with the position of the perforated holes in the wall of the of the center core tube, to enable the flow of gas along the exterior surfaces of the hollow fibers of the hollow fiber bundle between the tubesheets to be in either concurrent or countercurrent flow with respect to the flow of gas within the center core tube; and (iv) tubesheets encapsulating both ends of said bundle, with the center core tube extending and communicating through one of said tubesheets to permit the flow of feed fluid or non-permeate gas therethrough, with said hollow fiber membrane bundle positioned within the shell in fluid tight relationship between the shell and the bore sides of said hollow fiber bundle. A process for separating and enriching a first component from a fluids mixture thereof such at least one other component of said mixture, comprising: enabling withdrawal of permeate gas from both ends of the hollow fiber membrane bundle, with the fluids mixture being introduced to the external surface of the hollow fibers from an external fluid feed port or through the center core tube, for either co-current or countercurrent flow across the hollow fiber bundle, by (a) feeding said fluids mixture into a fluids separation apparatus through a feed port, said fluids separation apparatus comprising: (1) a shell enclosing a hollow fiber membrane bundle, said shell having a fluid feed port, a non-permeate fluid port, and at least one permeate fluid exit port; and (2) an annular double ended hollow fiber membrane bundle comprising: (i) a center core tube having perforated holes in the wall thereof located at selected points along the longitudinal length of said center core tube, said perforated holes being adapted to permit the flow of feed fluid from within said center core tube to the exterior surface of the hollow fibers, or to permit the flow of non-permeate gas from the exterior surface of the hollow fibers into said center core tube; (ii) a hollow fiber bundle in a cylindrical shape positioned around the exterior of the center core tube, with the hollow fibers extending essentially the length of the interior of the shell with both ends of the fibers embedded in, and extending between and through, the tubesheets in fluid tight relationship thereto, said hollow fibers being capable of selectively permeating said first component, with the open bores of the hollow fibers opening on the exterior surfaces of said tubesheets for withdrawal of permeate from both ends of the hollow fiber bundle; (iii) an essentially impermeable film barrier encasing the entire longitudinal length of the exposed hollow fibers of the hollow fiber bundle between the tubesheets, except for selected non-encased circumferential regions adapted to direct the flow of feed fluid to the exterior surface of the hollow fibers from a shell fluid feed port, or to permit the flow of non-permeate gas from the exterior surface of the hollow fibers to a shell non-permeable fluid port, said non-encased circumferential regions being adapted, together with the position of the perforated holes in the wall of the center core tube, to enable the flow of gas along the exterior surfaces of the hollow fibers of the hollow fiber bundle between the tube sheets to be in either concurrent or countercurrent flow path with respect to the flow of gas within the center core tube; and (iv) tubesheets encapsulating both ends of said bundle, with the center core tube extending and communicating through one of said tubesheets to permit the flow of feed fluid or non-permeate gas therethrough, with said hollow fiber membrane bundle positioned within the shell in fluid tight relationship between the shell and the bore sides of said hollow fiber bundle; (b) removing non-permeate gas from the fluids separation apparatus through a non-permeate port; and (c) recovering said first component permeate gas through at least one permeate recovery port.
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