IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0294807
(2011-11-11)
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등록번호 |
US-8500848
(2013-08-06)
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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 :
3 인용 특허 :
18 |
초록
▼
The present disclosed embodiments relate to systems and methods 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 d
The present disclosed embodiments relate to systems and methods 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 membrane water vapor rejection 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 expelled through a membrane vapor rejection unit to ambient conditions.
대표청구항
▼
1. A dehumidification system for removing water vapor from an airstream, comprising: a first and second channel separated by a first membrane, wherein the first membrane is configured to facilitate removal of water vapor from an airstream flowing through the first channel by facilitating passage of
1. A dehumidification system for removing water vapor from an airstream, comprising: a first and second channel separated by a first membrane, wherein the first membrane is configured to facilitate removal of water vapor from an airstream flowing through the first channel by facilitating passage of H2O from the water vapor to the second channel through permeable volumes of the first membrane while substantially blocking all other components of the airstream from passing through the first membrane;a first pressure increasing device configured to create a lower partial pressure of water vapor within the second channel than in the first channel, such that the H2O moves through the first membrane to the second channel, wherein the pressure increasing device is also configured to increase the pressure of water vapor at an outlet of the pressure increasing device to a partial pressure of water vapor in a range suitable for directing the water vapor into a membrane water vapor rejection system;the membrane water vapor rejection system configured to receive the water vapor from the first pressure increasing device and to permit the water vapor to be rejected to an atmosphere while substantially blocking flow of other air components from the atmosphere from entering into the membrane water vapor rejection system; anda controller configured to control start-up, shutdown, and operation of the dehumidification system. 2. The system of claim 1, wherein the membrane water vapor rejection system comprises a first membrane container having a second membrane, and wherein the water vapor is rejected through the second membrane. 3. The system of claim 1, wherein the membrane water vapor rejection system comprises a second pressure increasing device and a second membrane container having a third membrane, and wherein the second pressure increasing device is configured to create a partial pressure suitable for moving the water vapor from the second membrane container through the third membrane and into the first membrane container. 4. The system of claim 3, wherein the membrane water rejection system comprises a third and a fourth pressure increasing device, and wherein the third pressure increasing device is configured to purge the first membrane container of the other air components and the fourth pressure increasing device is configured to purge the second membrane container of the other air components. 5. The system of claim 1, comprising a controller configured to increase efficiency of the operation of the dehumidification system by substantially minimizing an energy use. 6. The system of claim 5, wherein the first 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. 7. The system of claim 1, comprising a vacuum pump that removes other air components from water vapor in the second channel. 8. The system of claim 1, comprising a condensation system configured to receive the water vapor from the pressure increasing device in parallel with the membrane water rejection system. 9. The system of claim 1, wherein the other air components comprise nitrogen, oxygen, carbon dioxide, or a combination thereof. 10. The system of claim 1, wherein the first membrane comprises a zeolite. 11. A system, comprising: a first dehumidification system for removing H2O vapor from an airstream, comprising: an air channel configured to receive an inlet airstream and discharge an outlet airstream;a first H2O permeable material adjacent to the air channel, wherein the first H2O permeable material is configured to selectively enable H2O from H2O vapor in the inlet airstream to pass through the first H2O permeable material to a suction side of the first H2O permeable material and substantially block other components in the inlet airstream from passing through the first H2O permeable material to the suction side of the first H2O permeable material;a first pressure increasing device configured to create a lower partial pressure of H2O vapor on the suction side of the first H2O permeable material than the partial pressure of the H2O vapor in the inlet airstream to drive passage of the H2O from the H2O vapor in the inlet airstream through the first H2O permeable material, and to increase the pressure at an outlet of the pressure increasing device to a partial pressure of H2O vapor suitable for passing into a membrane water vapor rejection system;the membrane water vapor rejection system configured to receive the water vapor from the first pressure increasing device and to permit the water vapor to be rejected to an atmosphere while substantially blocking flow of other air components from the atmosphere into the membrane water vapor rejection system; anda controller configured to control the first dehumidification system, the cooling system, or a combination thereof. 12. The system of claim 11, comprising a cooling system disposed upstream from the first dehumidification system, downstream from the first dehumidification system, or a combination thereof. 13. The system of claim 11, comprising a second dehumidification system and a cooling system, wherein the cooling system is disposed downstream from the first dehumidification system and upstream from the second dehumidification system. 14. The system of claim 12, wherein the cooling system comprises an evaporative cooling unit, a mechanical cooling unit, or a combination thereof. 15. The system of claim 11, wherein the membrane water vapor rejection system comprises a first membrane container having a second membrane, and wherein the water vapor is rejected through the second membrane. 16. A method, comprising: using a pressure differential across an H2O permeable material to provide a force to move H2O through the H2O permeable material into an H2O vapor channel, wherein the H2O vapor channel has a partial pressure of H2O vapor in a range of approximately between 0.1 to 0.25 psia;receiving H2O vapor from the H2O permeable material into the H2O vapor channel;receiving the H2O vapor from the H2O vapor channel into a pressure increasing device and expelling the H2O vapor from the pressure increasing device at a partial pressure of H2O vapor in a range of approximately between 0.1 to 1.0 psia; andreceiving the H2O vapor from the pressure increasing device into a membrane H2O vapor rejection system and expelling the H2O vapor to an atmosphere. 17. The method of embodiment 16, comprising receiving an airstream including the H2O into an air inlet channel, and using the pressure differential across the H2O permeable material to provide the force to move H2O from the airstream through the H2O permeable material into the H2O vapor channel. 18. The method of embodiment 16, comprising substantially blocking passage of other components of the airstream through the H2O permeable material. 19. The method of embodiment 16, wherein the H2O permeable material comprises an H2O permeable membrane. 20. A dehumidification system for removing water vapor from an airstream, comprising: a first and second channel separated by a first membrane, wherein the first membrane is configured to facilitate removal of water vapor from an airstream flowing through the first channel by facilitating passage of H2O from the water vapor to the second channel through permeable volumes of the first membrane while substantially blocking all other components of the airstream from passing through the first membrane;a first pressure increasing device configured to create a lower partial pressure of water vapor within the second channel than in the first channel, such that the H2O moves through the first membrane to the second channel, wherein the pressure increasing device is also configured to increase the pressure of water vapor at an outlet of the pressure increasing device to a partial pressure of water vapor in a range suitable for directing the water vapor into a membrane water vapor rejection system;the membrane water vapor rejection system configured to receive the water vapor from the first pressure increasing device and to permit the water vapor to be rejected to an atmosphere while substantially blocking flow of other air components from the atmosphere from entering into the membrane water vapor rejection system; anda vacuum pump that removes other air components from water vapor in the second channel. 21. A dehumidification system for removing water vapor from an airstream, comprising: a first and second channel separated by a first membrane comprising a zeolite, wherein the first membrane is configured to facilitate removal of water vapor from an airstream flowing through the first channel by facilitating passage of H2O from the water vapor to the second channel through permeable volumes of the first membrane while substantially blocking all other components of the airstream from passing through the first membrane;a first pressure increasing device configured to create a lower partial pressure of water vapor within the second channel than in the first channel, such that the H2O moves through the first membrane to the second channel, wherein the pressure increasing device is also configured to increase the pressure of water vapor at an outlet of the pressure increasing device to a partial pressure of water vapor in a range suitable for directing the water vapor into a membrane water vapor rejection system; andthe membrane water vapor rejection system configured to receive the water vapor from the first pressure increasing device and to permit the water vapor to be rejected to an atmosphere while substantially blocking flow of other air components from the atmosphere from entering into the membrane water vapor rejection system.
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