IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0294968
(2011-11-11)
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등록번호 |
US-8641806
(2014-02-04)
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발명자
/ 주소 |
- Claridge, David E.
- Culp, Charles H.
|
출원인 / 주소 |
- The Texas A&M University System
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
21 인용 특허 :
23 |
초록
▼
Systems and methods are provided for dehumidifying air by establishing a humidity gradient across a water selective permeable membrane in a dehumidification unit. Water vapor from relatively humid atmospheric air entering the dehumidification unit is extracted by the dehumidification unit without su
Systems and methods are provided for dehumidifying air by establishing a humidity gradient across a water selective permeable membrane in a dehumidification unit. Water vapor from relatively humid atmospheric air entering the dehumidification unit is extracted by the dehumidification unit without substantial condensation into a low pressure water vapor chamber operating at a partial pressure of water vapor lower than the partial pressure of water vapor in the relatively humid atmospheric air. For example, water vapor is extracted through a water permeable membrane of the dehumidification unit into the low pressure water vapor chamber. As such, the air exiting the dehumidification unit is less humid than the air entering the dehumidification unit. The low pressure water vapor extracted from the air is subsequently condensed and removed from the system at ambient conditions.
대표청구항
▼
1. A dehumidification system for removing water vapor from an airstream, comprising: at least one cooling unit configured to cool air;a plurality of dehumidification units fluidly coupled to the cooling unit, each dehumidification unit comprising a first and second channel separated by a membrane, w
1. A dehumidification system for removing water vapor from an airstream, comprising: at least one cooling unit configured to cool air;a plurality of dehumidification units fluidly coupled to the cooling unit, each dehumidification unit comprising a first and second channel separated by a membrane, wherein the membrane is configured to facilitate removal of water vapor from an airstream flowing through the first channel by facilitating passage of H2O from the first channel to the second channel through permeable volumes of the membrane while substantially blocking all other components of the airstream from passing through the membrane;at least one pressure increasing device configured to create a lower partial pressure of water vapor within the second channels than in the first channels, such that the H2O moves through the membranes to the second channels, wherein the at least one pressure increasing device is also configured to increase the pressure of water vapor at an outlet of the at least one pressure increasing device to a partial pressure of water vapor in a range suitable for subsequent condensing into liquid water;at least one condensation device configured to receive the water vapor from the at least one pressure increasing device and condense the water vapor into liquid water; andat least one water transport device configured to transport the liquid water from the at least one condensation device. 2. The system of claim 1, wherein the plurality of dehumidification units are arranged in series with each other such that the airstream flows through the first channel of each dehumidification unit in series. 3. The system of claim 1, wherein the plurality of dehumidification units are arranged in parallel with each other such that the airstream flows through the first channel of only one dehumidification unit in parallel. 4. The system of claim 1, wherein a first set of the plurality of dehumidification units is arranged in series with each other, a second set of the plurality of dehumidification units is arranged in series with each other, and the first and second set of the plurality of dehumidification units are arranged in parallel with each other. 5. The system of claim 1, wherein the at least one cooling unit comprises a mechanical cooling unit, an evaporative cooling unit, or a combination thereof. 6. The system of claim 1, wherein the at least one cooling unit is disposed upstream of the plurality of dehumidification units, downstream of the plurality of dehumidification units, or a combination thereof. 7. The system of claim 1, wherein each of the plurality of dehumidification units delivers water vapor from the second channel to the same pressure increasing device. 8. The system of claim 1, wherein each of the plurality of dehumidification units delivers water vapor from the second channel to a respective pressure increasing device associated therewith. 9. The system of claim 1, wherein a controller is configured to increase efficiency of the operation of the dehumidification system by substantially reducing an energy use. 10. The system of claim 9, wherein the at least one pressure increasing device comprises a vacuum pump, and wherein the controller is configured to substantially reduce the energy use by substantially reducing a pump energy used to drive the vacuum pump. 11. A system, comprising: a dehumidification system for removing H2O vapor from an airstream, comprising: at least one cooling unit configured to cool air;a plurality of dehumidification units fluidly coupled to the at least one cooling unit, each dehumidification unit comprising an air channel configured to receive an inlet airstream and discharge an outlet airstream, and an H2O permeable barrier adjacent to the air channel, wherein the H2O permeable barrier is configured to selectively enable H2O from H2O vapor in the inlet airstream to pass through the H2O permeable barrier to a suction side of the H2O permeable barrier and substantially block other components in the inlet airstream from passing through the H2O permeable barrier to the suction side of the H2O permeable barrier; andat least one pressure increasing device configured to create a lower partial pressure of H2O vapor on the suction sides of the H2O permeable barriers than the partial pressure of the H2O vapor in the inlet airstreams to drive passage of the H2O from the H2O vapor in the inlet airstream through the H2O permeable barrier, and to increase the pressure at an outlet of the at least one pressure increasing device to a partial pressure of H2O vapor suitable for condensing H2O vapor into liquid H2O, wherein a first set of the plurality of dehumidification units is arranged in series with each other, a second set of the plurality of dehumidification units is arranged in series with each other, and the first and second set of the plurality of dehumidification units are arranged in parallel with each other. 12. The system of claim 11, wherein the dehumidification system comprises at least one condensation device configured to receive the H2O vapor from the outlet of the at least one pressure increasing device, and to condense the H2O vapor into liquid H2O. 13. The system of claim 12, wherein the dehumidification system comprises at least one device configured to adjust a pressure of the liquid H2O from the at least one condensation device to an ambient pressure. 14. The system of claim 11, wherein the dehumidification system comprises at least one membrane water vapor rejection device configured to receive the H2O vapor from the outlet of the at least one pressure increasing device, and to reject the H2O vapor into an ambient air. 15. The system of claim 11, wherein the plurality of dehumidification units are arranged in series with each other such that the airstream flows through the air channel of each dehumidification unit in series. 16. The system of claim 11, wherein the plurality of dehumidification units are arranged in parallel with each other such that the airstream flows through the air channel of only one dehumidification unit in parallel. 17. The system of claim 11, wherein the H2O permeable barriers comprise zeolite. 18. A method, comprising: receiving a plurality of airstreams including H2O vapor into air channels of a plurality of dehumidification units, wherein the airstreams have a first partial pressure of H2O vapor;suctioning H2O into H2O vapor channels of the plurality of dehumidification units through H2O permeable materials of the plurality of dehumidification units using pressure differentials across the H2O permeable materials, wherein the H2O vapor channels have a second partial pressure of H2O vapor lower than the first partial pressure of H2O vapor of the airstreams;receiving H2O vapor from the H2O vapor channels into a pressure increasing device and increasing the pressure of the H2O vapor from the pressure increasing device to a third partial pressure of H2O vapor that is higher than the second partial pressure of H2O vapor;receiving the H2O vapor from the pressure increasing device into a condensation device and condensing the H2O vapor into liquid H2O;transporting the liquid H2O from the condensation device to ambient conditions; andcooling the airstreams by using at least one cooling unit. 19. The method of claim 18, comprising receiving the plurality of airstreams including H2O vapor into air channels of the plurality of dehumidification units arranged in series with each other such that the airstreams flow through the air channels of each dehumidification unit in series. 20. The method of claim 18, comprising receiving the plurality of airstreams including H2O vapor into air channels of the plurality of dehumidification units arranged in parallel with each other such that each of the airstreams flow through the air channel of only one dehumidification unit in parallel. 21. The method of claim 18, comprising receiving the plurality of airstreams including H2O vapor into air channels of a first set of the plurality of dehumidification units arranged in series with each other, and a second set of the plurality of dehumidification units arranged in series with each other, wherein the first and second set of the plurality of dehumidification units are arranged in parallel with each other. 22. The method of claim 18, wherein cooling the airstreams occurs downstream of the receiving a plurality of airstreams, upstream of the receiving a plurality of airstreams, or a combination thereof. 23. A system, comprising: a dehumidification system for removing H2O vapor from an airstream, comprising: at least one cooling unit configured to cool air;a plurality of dehumidification units fluidly coupled to the at least one cooling unit, each of the plurality of dehumidification units comprises an air channel configured to receive an inlet airstream and discharge an outlet airstream, and an H2O permeable barrier adjacent to the air channel, wherein the H2O permeable barrier is configured to selectively enable H2O from H2O vapor in the inlet airstream to pass through the H2O permeable barrier to a suction side of the H2O permeable barrier and substantially block other components in the inlet airstream from passing through the H2O permeable barrier to the suction side of the H2O permeable barrier;at least one pressure increasing device configured to create a lower partial pressure of H2O vapor on the suction sides of the H2O permeable barriers than a partial pressure of the H2O vapor in the inlet airstreams to drive passage of the H2O from the H2O vapor in the inlet airstream through the H2O permeable barrier, and to increase the pressure at an outlet of the at least one pressure increasing device to the partial pressure of H2O vapor suitable for condensing H2O vapor into liquid H2O; andat least one membrane water vapor rejection device configured to receive the H2O vapor from the outlet of the at least one pressure increasing device, and to reject the H2O vapor into an ambient air.
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