Cartridge of hybrid frameless arrays of hollow fiber membranes and module containing an assembly of cartridges

US 5,182,019 A
Filed: 03/03/1992
Issued: 01/26/1993
Est. Priority Date: 08/17/1990
Status: Expired due to Fees

First Claim

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1. A module for use as a membrane device, comprising, a shell having two ends;

a pair of end closures with fluid couplings removably affixed to each of said ends of said shell;

at least one unitary cartridge disposed longitudinally within said shell, said cartridge comprising plural frameless arrays of hollow fibers of selectively permeable material held near their opposite terminal portions in a pair of mirror-image split-clip headers, each split-clip header in one array being laminated to another in a successive array so as to define a fluid-tight axial conduit having open ends through which a feedstream is flowed transversely over said fibers into a concentrate zone, the bores of said fibers being in open fluid communication with a permeate zone in said shell;

each split-clip header having(i) lateral grooves which provide a through-passage in the plane of the fibers, said grooves being adapted snugly to embrace terminal end portions of each fiber so that fibers of an array lie in parallel spaced-apart relationship in a plane substantially orthogonal to the direction of flow of said feedstream, and the fibers of one array lie transversely to those of another array, and,(ii) a potting channel traversing at least the width of an array of fibers, the potting channel of one split-clip header in open communication with that of a contiguous split-clip header;

an annular shell of potting resin integrally formed within said potting channels of said split-clip headers, to pot said fibers near their ends;

means for feeding said feedstream to said shell so that said feedstream flows over said hollow fibers under a sufficient driving force to effect the separation desired and yield a permeate, and separately, a concentrate;

means to remove said permeate from said permeate zone; and

,means to remove said concentrate from said concentrate zone.

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Abstract

A module is disclosed for use as a membrane device, comprising, a shell with fluid couplings removably affixed to each of its ends containing at least one cartridge having an axial conduit. The cartridge is formed with plural frameless arrays of hollow fibers of selectively permeable material. Each array is free of any means to support the fibers intermediate split-clip headers in which the fibers are held near their opposite ends, except for tension cords which may be substituted for fibers. The split-clip headers are mirror-images of each other. Each has a peripheral potting channel and longitudinal, laterally spaced apart grooves in the split-clip headers. The upper and lower sections, placed one upon the other, together form through-passages ("grooves") in which terminal portions of the fibers are snugly embraced. The fibers lie in parallel spaced-apart relationship in a plane substantially orthogonal to the axial conduit, and their ends are cut before a stack of arrays is potted. The fibers of one array lie transversely relative to those of another array. The cartridge is disposed longitudinally within the shell and comprises plural split-clip headers which when laminated, one to another, define the central axial which need not be fluid-tight but only near-fluid-tight, so the terminal portions of the fibers can be potted.

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31 Claims

1. A module for use as a membrane device, comprising, a shell having two ends;
- a pair of end closures with fluid couplings removably affixed to each of said ends of said shell;
  
  at least one unitary cartridge disposed longitudinally within said shell, said cartridge comprising plural frameless arrays of hollow fibers of selectively permeable material held near their opposite terminal portions in a pair of mirror-image split-clip headers, each split-clip header in one array being laminated to another in a successive array so as to define a fluid-tight axial conduit having open ends through which a feedstream is flowed transversely over said fibers into a concentrate zone, the bores of said fibers being in open fluid communication with a permeate zone in said shell;
  
  each split-clip header having(i) lateral grooves which provide a through-passage in the plane of the fibers, said grooves being adapted snugly to embrace terminal end portions of each fiber so that fibers of an array lie in parallel spaced-apart relationship in a plane substantially orthogonal to the direction of flow of said feedstream, and the fibers of one array lie transversely to those of another array, and,(ii) a potting channel traversing at least the width of an array of fibers, the potting channel of one split-clip header in open communication with that of a contiguous split-clip header;
  
  an annular shell of potting resin integrally formed within said potting channels of said split-clip headers, to pot said fibers near their ends;
  
  means for feeding said feedstream to said shell so that said feedstream flows over said hollow fibers under a sufficient driving force to effect the separation desired and yield a permeate, and separately, a concentrate;
  
  means to remove said permeate from said permeate zone; and
  
  ,means to remove said concentrate from said concentrate zone.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The module of claim 1 wherein,(i) each said split-clip header consists essentially of an upper and a lower laminar section having a width sufficient to negate damage to terminal portions of said fibers when subjected to a drag force produced by a transversely flowing feedstream;
    - (ii) the number of said grooves in each split-clip header are equal to the number of said hollow fibers, each groove having an arcuate profile adapted to snugly embrace a corresponding arcuate portion of one of said hollow fibers near one of its ends;
      
      (iii) each of said grooves in said lower section are spaced apart with the same spacing as each groove in said upper section, so as together to embrace each one of said hollow fibers near its one end;
      
      (v) bonding means for bonding said sections and said terminal portions of fibers held between said sections, in near-fluid-tight relationship; and
      
      ,(v) means for interfitting each array with another array in a generally planar configuration, said means being provided in each said split-clip header.
  - 3. The module of claim 1 wherein said hollow fibers have an outside diameter in the range from about 100 μ
    - m to about 10 mm, and a wall thickness in the range from about 5% to 40% of said outside diameter.
  - 4. The module of claim 1 wherein said cartridge is mounted in said shell on mounting means upon which each said array of fibers is tensionable to a preselected extent, and each array is substantially free of means other than said split-clip header to support said hollow fibers.
  - 5. The module of claim 2 wherein said bonding means is provided by an adhesive, ultra-sound waves, a solvent weld, or dielectric heating.
  - 6. The module of claim 2 wherein said split-clip headers have a thickness in the range from about 2 to about 5 times the outside diameter of said fibers, and said upper and lower sections are formed from flexible laminar synthetic resinous stock.
  - 7. The module of claim 2 wherein said fibers are laterally spaced apart in grooves in each section of said split-clip header, and the grooved portion of one section is in mirror image relationship with that of the other.
  - 8. The module of claim 2 wherein said array includes at least one tension cord having substantially the same length as said fibers to provide reinforcing for sad split-clip header and support for fibers in a next adjacent array, when said latter fibers are deflected during operation of said module.
  - 9. The module of claim 3 wherein each array of fibers discharges said permeate into said permeate zone in opposite directions, so that the arrays in said cartridge discharge permeate into said shell in four directions, each at right angles to another.
  - 10. The module of claim 9 wherein said hollow fibers are formed from an organic polymeric material, and each said section of said split-clip header is formed from a thermoplastic synthetic resinous material.
  - 11. The module of claim 9 wherein said hollow fibers are formed from a ceramic/metallic material, and each said section of said split-clip header is formed from a ceramic/metallic material.
  - 12. The module of claim 5 wherein the void fraction within said stack is in the range from about 25% to about 70%, and said fibers are held in said split-clip headers by terminal portions which range from about 4% to about 20% of the overall length of the fibers.
  - 13. The module of claim 12 wherein at least some of said fibers in one array pressingly contact fibers from a next adjacent array, so as to provide support for each other during flow of fluid through said module.
  - 14. The module of claim 12 wherein said fibers are essentially free from contact, one with another, in each array, and from one array to another, except during flow of fluid through said stack under flow conditions sufficient to produce a sag in said fibers.

15. A unitary cartridge of hollow fibers of selectively permeable material for use in a membrane device, comprising,plural frameless arrays of said fibers held near their opposite terminal portions in a pair of mirror-image split-clip headers, one split-clip header in a first array being bonded to a second split-clip header in a successive array, so as to define a fluid-tight axial conduit having open ends;
- said fibers having bores in open fluid communication outside said cartridge, said bores being disposed so as to duct fluid in opposite directions;
  
  each split-clip header having(i) lateral grooves which provide a through-passage in the plane of the fibers, said grooves being adapted snugly to embrace terminal end portions of each fiber so that fibers of an array lie in parallel spaced-apart relationship in a plane substantially orthogonal to said axial conduit, and the fibers of one array lie transversely to those of another array, and,(ii) a potting channel in each split-clip header traversing at least the width of an array of fibers, the potting channel of one split-clip header being in open communication with that of a contiguous split-clip header; and
  
  ,(iii) an annular shell of potting resin filling said potting channels of said split-clip headers, and potting said fibers near their ends.
- View Dependent Claims (16, 17, 18, 19)
- - 16. The cartridge of claim 15 wherein,(i) each said split-clip header consists essentially of an upper and a lower laminar section having a width sufficient to negate damage to terminal portions of said fibers when subjected to a drag force produced by a transversely flowing feedstream;
    - (ii) the number of said grooves in each split-clip header are equal to the number of said fibers, each groove having an arcuate profile adapted to snugly embrace a corresponding arcuate portion of one of said fibers near one of its ends;
      
      (iii) each of said grooves in said lower section are spaced apart with the same spacing as each groove in said upper section, so as together to embrace each one of said fibers near its one end;
      
      (iv) bonding means for bonding said sections and said terminal portions of fibers held between said sections in at least near-fluid-tight relationship; and
      
      ,(v) means for interfitting each array with another array in a generally planar configuration, said means being provided in each said split-clip header.
  - 17. The cartridge of claim 15 wherein said fibers have an outside diameter in the range from about 100 μ
    - m to about 10 mm, and a wall thickness in the range from about 5% to about 40% of said outside diameter.
  - 18. The cartridge of claim 17 wherein said fibers are made from an organic polymeric material, a fiber having an outside diameter in the range from about 0.1 mm to 2 mm.
  - 19. The cartridge of claim 17 wherein said fibers are made from an inorganic material, a fiber having an outside diameter in the range from about 3 mm to 13 mm.

20. A method for making a cartridge of multiple split-clip headers each holding an array of hollow fibers potted near their ends in an annular shell of potting resin, said method comprising,(1) securing said array of fibers in each of said splitclip headers without potting said fibers, by(i) training said plural fibers in parallel spaced apart relationship, into longitudinal, laterally spaced apart grooves provided in a first pair of opposed, longitudinally spaced apart laminar sections each having an elongated potting channel within a width corresponding to the length of one terminal portion of a fiber to be secured in one groove;
- (ii) placing a second pair of laminar sections, each having longitudinal, laterally spaced apart grooves therein, and a potting channel, coextensively over said first pair so as to embrace each said terminal portion between the grooves of said laminar sections; and
  
  ,(iii) bonding said laminar sections with said fibers therebetween in at least near-fluid-tight relationship to secure said fibers in each of said split-clip headers;
  
  (2) coaxially aligning potting channels and bonding plural split-clip headers in at least near-fluid-tight relationship;
  
  (3) filling said potting channels with potting resin substantially without flowing resin out of said laminar sections;
  
  ; and
  
  ,(4) curing said resin to form said annular shell which seals said end portions and said split-clip headers in fluid-tight relationship with each other.
- View Dependent Claims (21, 22, 27, 28, 29, 30)
- - 21. The method of claim 20 wherein each said pair of laminate sections is arcuate, said potting channels are arcuate, and said annular shell of resin is cylindrical.
  - 22. The method of claim 20 wherein each said pair of laminate sections is an elongated rectangular strip, said potting channels are essentially linear and said annular shell of resin has a rectangular cross-section.
  - 27. The array of claim 21 wherein said fibers are made from an organic polymeric material, a fiber having an outside diameter in the range from about 0.1 mm to 2 mm, and, said upper and lower laminar sections are produced from a thermoplastic synthetic resinous material.
  - 28. The array of claim 27 wherein said fibers are displaceable in any direction relative to the other.
  - 29. The array of claim 21 wherein said fibers are hollow membranes made from a ceramic or metallic material material, and have an outside diameter in the range from about 3 mm to 13 mm, and, said upper and lower laminar sections are produced from a thermoplastic synthetic resinous material.
  - 30. The array of claim 29 wherein said fibers are nondisplaceable in any direction relative to the other.

23. An array of hollow fibers for use in a membrane device, comprising,(i) a pair of mirror-image split-clip headers longitudinally spaced apart by the length of said fibers, each said split-clip header comprising an upper and a lower laminar section, each having a peripheral potting channel therein, and each section having a width sufficient to negate damage to terminal portions of said fibers when subjected to a drag force produced by a feedstream flowing transversely over said fibers;
- (ii) plural longitudinal, laterally spaced apart grooves in each said section, the number of said grooves being equal to the number of said hollow fibers, with each groove having an arcuate profile adapted to snugly embrace a corresponding arcuate portion of one of said hollow fibers near one of its ends;
  
  (iii) said grooves in said lower section being spaced apart with the same spacing as those in said upper section, so as together to embrace each one of said one hollow fibers near its one end;
  
  (iv) means for bonding said sections and said terminal portions held between said sections, at least in near-fluid-tight relationship, to form said array having a pair of split-clip headers; and
  
  ,(v) means for interfitting said array with another array in a generally planar configuration, said means being provided in each said split-clip header.
- View Dependent Claims (24, 25, 26, 31)
- - 24. The array of claim 23 wherein said fibers have an outside diameter in the range from about 100 μ
    - m to about 10 mm, and a wall thickness in the range from about 5% to about 40% of said outside diameter.
  - 25. The array of claim 23 wherein said fibers are free of any support means other than said split-clip headers.
  - 26. The array of claim 23 wherein said split-clip headers fixedly confine opposed ends of at least one tension cord disposed in parallel relationship with said fibers so that said tension cord provides support for fibers in a next adjacent array.
  - 31. The array of claim 24 wherein said upper and lower laminar sections of thermoplastic synthetic resinous material are adhesively bonded to each other, and to said terminal portions of said fibers.

Specification

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Current Assignee
Zenon Environmental Incorporated
Original Assignee
Zenon Environmental Incorporated
Inventors
Cote, Pierre L., Lipski, Christopher J., Maurion, Roger P., Pedersen, Steven K.
Primary Examiner(s)
Sever, Frank

Application Number

US07/845,168
Time in Patent Office

329 Days
Field of Search

210/321.89, 210/321.6, 210/321.64, 210/321.72, 210/321.78, 210/321.79, 210/321.8, 210/321.87, 210/321.88, 210/500.23, 264/41, 264/45.1, 264/DIG. 48, 264/DIG. 62
US Class Current

210/321.8
CPC Class Codes

B01D 63/021   Manufacturing thereof

B01D 63/022   Encapsulating hollow fibres

B01D 63/0221   using a mould

B01D 63/0231   using supporting structures...

B01D 63/04   comprising multiple hollow ...

B01D 63/043   with separate tube sheets

Cartridge of hybrid frameless arrays of hollow fiber membranes and module containing an assembly of cartridges

First Claim

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Abstract

159 Citations

31 Claims

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Cartridge of hybrid frameless arrays of hollow fiber membranes and module containing an assembly of cartridges

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

159 Citations

31 Claims

Specification

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Solutions

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