Liquid degassing membrane contactors, components, systems and related methods
First Claim
1. A liquid degassing membrane contactor or module, comprising:
- a cylindrical housing or shell made of a length of modified pipe,at least one integrally potted hollow fiber membrane structure in said cylindrical housing with the ends of said membrane structure recessed in said housing a recess of at least 1″
from each end, andrespective disc shaped end caps adapted to be received in each open end of said housing.
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Accused Products
Abstract
The present invention is directed to contactors, modules, components, systems, and/or methods of manufacture, and/or methods of use including degassing liquids. The contactor or module is integrally potted, has planar, disc shaped end caps, and a cylindrical housing or shell receiving and supporting a membrane structure. Each of the planar disc shaped end caps has a central opening therein adapted to receive a liquid end port or nozzle and is held in place in the housing or shell by at least one retaining element. The integrally potted membrane structure is preferably potted in place in the housing or shell by an inverted potting process involving the use of a removable plunger or plug to recess the potting.
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Citations
17 Claims
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1. A liquid degassing membrane contactor or module, comprising:
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a cylindrical housing or shell made of a length of modified pipe, at least one integrally potted hollow fiber membrane structure in said cylindrical housing with the ends of said membrane structure recessed in said housing a recess of at least 1″
from each end, andrespective disc shaped end caps adapted to be received in each open end of said housing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A spiral-type hollow fiber membrane fabric-containing module or contactor, comprising:
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a module housing made of a modified section of pipe; a pair of end caps adapted to fit in the ends of said module housing; liquid end ports in each of said end caps; at least one gas port in at least one of said end caps or in the side of said module housing near one end thereof; at least one membrane structure adapted to fit in said module housing, each membrane structure comprising; a. a plurality of hollow fiber membranes each having a lumen, said membranes being formed into a fabric-like array in which the hollow fibers substantially are mutually-parallel and constitute the fabric weft, and are held in spaced-apart relationship by filaments constituting the fabric warp; b. the array being wound upon an axis which is substantially parallel to the hollow fibers into a spirally-wound membrane bundle having two bundle ends and a cylindrical exterior surface; c. each of the two bundle ends being potted in resinous potting material serving to seal the bundle end into an adjacent monolithic tube sheet, a portion of the bundle between the two tube sheets being free from potting material to form a shell-side region, and the lumen ends of the hollow fibers constituting a first one of the bundle ends being exposed and communicating with the exterior of the bundle; d. the module shell, casing or housing having first and second housing ends and a cylindrical housing interior and being suitably shaped to contain the membrane bundle, the tube sheet (potting) recessed relative to the first housing end sealing the first bundle end to the cylindrical housing interior, said module housing which contains the bundle defining two regions mutually communicating through the membrane including (i) a shell-side space exterior to the portion of the bundle between the tube sheets and within the housing, and (ii) a lumen-side space including the hollow fiber lumens and the first bundle end; wherein an interior face of a first of said end caps and an interior of said module housing adjacent the first tube sheet, together with the cylindrical housing interior and the first bundle end, seal a first module housing end and define a first chamber communicating with the membrane lumens; wherein an interior face of a second of said end caps and an interior of said module housing adjacent a second tube sheet recessed from the second housing end, together with the cylindrical housing interior and a second bundle end, seal a second module housing end and define a second chamber communicating with the membrane lumens; said liquid ends ports being operatively connected to the shell-side space of the membrane structure, and arranged to permit fluid injection and withdrawal there through; and the at least one gas port communicating with at least one of the first and second chambers, and arranged to permit gas injection and withdrawal there through. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. An integrally potted hollow fiber membrane contactor comprising:
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planar, disc shaped end caps, a high pressure cylindrical housing receiving and supporting a membrane element including a perforated core, a plurality of hollow fiber membranes, a tube sheet affixing each end of the hollow fibers and adhering to the interior of the housing, each of the planar disc shaped end caps having a central opening therein adapted to receive a liquid end port, another opening therein adapted to receive a gas end port, and is adapted to be held in place in the cylindrical housing by at least one retaining element being a retaining ring received in a groove in the interior of the cylindrical housing, the integrally potted membrane structure is potted in place in the housing by an inverted potting process involving the use of a removable plunger to provide recessed potting and by trimming the end of the potting and opening the ends of the hollow fibers using an internal lathe means, and the housing including a larger diameter section for receiving the end cap, the groove for receiving the retaining ring, and a flared entrance for facilitating the insertion of the end cap and retaining ring.
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Specification