A membrane gas-liquid contactor is arranged to define a fluid flow path for contact with a membrane in a manner to improve degassing efficiency. A degassing module housing the membrane is arranged with flow fields for distributing the fluid flow throughout the membrane contact area. The distributed
A membrane gas-liquid contactor is arranged to define a fluid flow path for contact with a membrane in a manner to improve degassing efficiency. A degassing module housing the membrane is arranged with flow fields for distributing the fluid flow throughout the membrane contact area. The distributed fluid flow may have a uniform membrane contact opportunity.
대표청구항▼
1. A liquid degassing apparatus, comprising: a module having a semi-permeable membrane disposed in a chamber and dividing said chamber into a permeate side and a retentate side, said permeate side including a first port, and said retentate side including: an inlet liquid manifold fluidically connect
1. A liquid degassing apparatus, comprising: a module having a semi-permeable membrane disposed in a chamber and dividing said chamber into a permeate side and a retentate side, said permeate side including a first port, and said retentate side including: an inlet liquid manifold fluidically connected to an inlet port and configured to exert a first frictional flow restriction upon a liquid flow therethrough;an outlet liquid manifold fluidically connected to an outlet port, and configured to exert a second frictional flow restriction upon the liquid flow therethrough; anda channel array including a plurality of channels extending between and fluidically connecting said inlet and outlet liquid manifolds, said channels being separated from one another by respective dividers, each of said channels being configured to exert a channel frictional flow restriction upon the liquid flow therethrough, wherein a sum of said first and second frictional flow restrictions is no greater than about 50% of a sum of said channel frictional flow restrictions. 2. A liquid degassing apparatus as in claim 1, wherein each channel frictional flow restriction is substantially equal. 3. A liquid degassing apparatus as in claim 2, including a diffuser disposed in said chamber at said permeate side between said membrane and a chamber wall. 4. A liquid degassing apparatus as in claim 3, wherein said diffuser urges said membrane into contact with brace surfaces of said divider walls. 5. A liquid degassing apparatus as in claim 4 wherein said brace surfaces are substantially planar, each brace surface being coextensive with a brace plane. 6. A liquid degassing apparatus as in claim 3 wherein said diffuser is porous to provide a diffuser frictional flow restriction upon a gas flow therethrough, said diffuser frictional flow restriction being less than 1 mm Hg. 7. A liquid degassing apparatus as in claim 6 wherein said diffuser includes a woven polymer fabric structure. 8. A liquid degassing apparatus as in claim 1 wherein said liquid-impermeable membrane is non-porous but gas permeable. 9. A liquid degassing apparatus as in claim 1, including a pump fluidically connected to said first port for evacuating said permeate side of said module. 10. A degassing apparatus, comprising: a module having a first plate connected to a second plate to define a degassing chamber therebetween, and a semi-permeable membrane secured between said first and second plates to separate said chamber into a permeate side and a retentate side, said first plate including a fluid flow path defined by a first manifold, a second manifold, and a first channel array having a plurality of first channels fluidically connecting said first manifold to said second manifold, said fluid flow path being configured to convey a fluid flow through said retentate side of said chamber and into contact with said membrane, said first manifold being configured to exert a first frictional flow resistance upon the fluid flow, said second manifold being configured to exert a second frictional flow resistance upon the fluid flow, and each of said channels in said channel array being configured to exert a substantially equal channel frictional flow resistance upon the fluid flow, wherein a sum of said first and second frictional flow restrictions is suitable to permit substantially uniform fluid flow along said channel array while in contact with said membrane, said permeate side of said chamber being evacuatable through a first port. 11. A degassing apparatus as in claim 10, wherein said sum of said first and second frictional flow restrictions being no greater than about 10% of a sum of said channel flow restrictions. 12. A degassing apparatus as in claim 11 wherein said first port is disposed in said second plate. 13. A degassing apparatus as in claim 11, including a fluid inlet port in said first plate fluidically coupled to said first manifold, and a fluid outlet port in said first plate fluidically coupled to said second manifold. 14. A degassing apparatus as in claim 13 wherein the fluid flow is conveyed along said fluid path from said fluid inlet port to said first manifold, wherein the fluid flow is distributed substantially equally to said channels of said channel array to flow for collection at said second manifold. 15. A degassing apparatus as in claim 14 wherein the fluid flow is conveyed from said second manifold to said fluid outlet port. 16. A degassing apparatus as in claim 11 wherein said channels are separated from one another by respective divider walls. 17. A degassing apparatus as in claim 16 wherein said divider walls are substantially parallel to one another. 18. A degassing apparatus as in claim 17 wherein said channels are substantially perpendicular to said first and second manifolds. 19. A degassing apparatus as in claim 18 wherein said first and second manifolds comprise troughs in said first plate, said first manifold comprising a first trough extending in fluid communication with respective first ends of said first channels, and said second manifold comprising a second trough extending in fluid communication with respective second ends of said first channels. 20. A degassing apparatus as in claim 16 wherein said divider walls are integrally formed with said first plate. 21. A degassing apparatus as in claim 19 wherein each of said first channels has a hydraulic diameter, determined by a width and a depth of said first channel. 22. A degassing apparatus as in claim 21 wherein each of said first channels has an equal hydraulic diameter. 23. A degassing apparatus as in claim 22 wherein each of said first channels has an equal channel depth. 24. A degassing apparatus as in claim 23 wherein said first and second troughs have a trough depth that is greater than said channel depth. 25. A degassing apparatus as in claim 16, including a porous diffuser disposed at said permeate side of said chamber between said membrane and said second plate, said diffuser being arranged to urge said membrane into contact with brace surfaces of said divider walls. 26. A degassing apparatus as in claim 10 wherein said semi-permeable membrane is non-porous, liquid-impermeable, and gas-permeable. 27. A degassing apparatus as in claim 10, including a second channel array having a plurality of second channels fluidically connecting a third manifold to a fourth manifold along said fluid flow path, wherein said third manifold is arranged to receive the fluid flow from said second manifold. 28. A degassing apparatus as in claim 27 wherein said channel array is disposed at a first side of a first plate, and said second channel array is disposed at a second side of said first plate. 29. A degassing apparatus as in claim 28, including a second semi-permeable membrane secured between said second side of said first plate and said second plate. 30. A degassing apparatus as in claim 29, including a fluid inlet port in said first plate fluidically coupled to said first manifold, and a fluid outlet port in said first plate fluidically coupled to said fourth manifold. 31. A method for reducing a target gas concentration in a fluid, said method comprising: (a) providing a module as in claim 10;(b) motivating the fluid along the fluid flow path in contact with the semi-permeable membrane; and(c) reducing a partial pressure of the target gas in said permeate side of said chamber to a level that is lower than the target gas partial pressure in the fluid. 32. A method as in claim 31, including evacuating said permeate side of said chamber through said first port with a pump.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (21)
Gottlieb, Amos J; Crain, David L, Apparatus and method for degassing liquids.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.