IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0014114
(2004-12-15)
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등록번호 |
US-7434411
(2008-10-14)
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발명자
/ 주소 |
- Drost,Kevin M.
- Narayanan,Vinod
- Pence,Deborah V.
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출원인 / 주소 |
- Drost,Kevin M.
- Narayanan,Vinod
- Pence,Deborah V.
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
4 인용 특허 :
7 |
초록
▼
Microchannel or fractal plate desorption retains the advantage of high-flux, thin-film desorption without using membranes and allows for lightweight, compact desorbers for either LiBr and water or ammonia and water. Working embodiments of the process comprise providing a droplet desorber, feeding a
Microchannel or fractal plate desorption retains the advantage of high-flux, thin-film desorption without using membranes and allows for lightweight, compact desorbers for either LiBr and water or ammonia and water. Working embodiments of the process comprise providing a droplet desorber, feeding a multicomponent fluid mixture comprising at least a first fluid and a second fluid to the desorber, and performing a desorption process on the mixture using the desorber. The primary fluid mixtures used were ammonia and water, and aqueous lithium bromide. Various working embodiments of desorbers are disclosed, including several desorbers comprising plural, substantially straight, substantially parallel microchannels in an array, and a fractal plate desorber, such as a bifurcating fractal plate. The method also comprises separating a first fluid from a second fluid using a separation process, such as gravity separation, wicking separation, electro hydrodynamic separation, centrifugal separation, cyclone separation, and combinations thereof. Disclosed embodiments of the system useful for performing the desorption process include a desorber; a manifold positioned to deliver a mixture of fluids to the desorber, the mixture comprising a refrigerant; a heater, including thin film deposited heaters, operatively associated with the desorber; and a separator downstream of the desorber for separating a refrigerant vapor from a liquid fraction remaining from the mixture following vaporization of the refrigerant. Such systems also typically include an expansion valve through which the refrigerant flows, where the pressure is reduced and the refrigerant boils at a low temperature, and may include additional optional devices useful for practicing the desorption process, such as pumps, fluid collectors, etc.
대표청구항
▼
We claim: 1. A droplet desorption proccss, comprising: providing a droplet desorber comprising plural, substantially straight, substanially parallel microchannels or a fractal plate; feeding a mixture comprising at least a first fluid and a second fluid to the desorber; and performing droplet desor
We claim: 1. A droplet desorption proccss, comprising: providing a droplet desorber comprising plural, substantially straight, substanially parallel microchannels or a fractal plate; feeding a mixture comprising at least a first fluid and a second fluid to the desorber; and performing droplet desorption on the mixture using the desorber. 2. The process according to claim 1 wherein the desorber includes mirochannels that facilitate fluid slug flow. 3. The process according to claim 2 where the microchannels have substantially equal dimensions. 4. The process according to claim 2 where the microchannels have substantially equal heights and widths. 5. The method according to claim 1 comprising a bifurcating channel fractal plate. 6. The method according to claim 1 further comprising separating the first fluid from the second fluid using a process selected from the group consisting of gravity separation, wicking separation, electro hydrodynamic separation, centrifugal separation, cyclone separation, and combinations thereof. 7. The method according to claim 1 where the mixture is selected from the group consisting of ammonia and water; lithium bromide and water; lithium bromide, zinc bromide and methanol; sodium hydroxide and water; lithium chloride and water; lithium nitrate, potassium nitrate, sodium nitrate and water; and combinations thereof. 8. The method according to claim 1 where the mixture comprises ammonia and water. 9. The method according to claim 1 where the mixture comprises lithium bromide and water. 10. The method according to claim 1 where the mixture comprises lithium bromide, ammonia and water. 11. A cooling desorption process, comprising: providing a droplet desorber comprising plural, substantially straight, substantially parallel microchannels or a fractal plate; feeding a mixture to the desorber comprising a first fluid and a second fluid, the mixture being selected from the group consisting of ammonia and water; lithium bromide and water; lithium bromide, zinc bromide and methanol; sodium hydroxide and water; lithium chloride and water; lithium nitrate, potassium nitrate, sodium nitrate and water; and combinations thereof; and performing droplet desorption on the mixture using the desorber and separating the first fluid from the second fluid using a process selected from the group consisting of gravity separation, wicking separation, electro hydrodynamic separation, centrifugal separation, cyclone separation, and combinations thereof. 12. A droplet desorption process, comprising: providing a droplet desorber having a microchannel geometry that facilitates droplet desorption; feeding a fluid mixture to the desorber; and performing droplet desorption on the mixture using the desorber. 13. The process according to claim 12 where the desorber comprises plural, substantially straight, substantially parallel microchannels. 14. The process according to claim 12 wherein the desorber includes microchannels that facilitate fluid slug flow. 15. The process according to claim 12 where the microchannels have substantially equal dimensions. 16. The process according to claim 15 where the microchannels have substantially equal heights and widths. 17. The method according to claim 13 where the desorber comprises a fractal plate. 18. A system, comprising: a substantially straight, substantially parallel microchannel array or a fractal plate desorber, the array and fractal plate having channel geometries that facilitate droplet desorption; a manifold positioned to deliver multiple component fluids comprising a refrigerant to the desorber; a heater operatively associated with the desorber; and a separator downstream of the desorber for separating a refrigerant vapor from a liquid fraction remaining from the mixture following vaporization of the refrigerant. 19. The system according to claim 18 further comprising an expansion valve through which the refrigerant flows, where the pressure is reduced and the refrigerant boils at a Low temperature. 20. The system according to claim 18 where the heater is a thin film heater. 21. The system according to claim 20 where the heater comprises nichrome. 22. The system according to claim 18 where the separator is selected from the group consisting of a gravity separator, a wicking separator, an electro hydrodynamic separator, a centrifugal separator, a cyclone separator, and combinations thereof. 23. The system according to claim 18 where the multiple component fluid is selected from the group consisting of ammonia and water; lithium bromide and water; lithium bromide, zinc bromide and methanol; sodium hydroxide and water; lithium chloride and water; lithium nitrate, potassium nitrate, sodium nitrate and water; and combinations thereof. 24. The system according to claim 18 where the multiple component fluid comprises ammonia and water. 25. The system according to claim 18 where the multiple component fluid comprises lithium bromide and water. 26. The system according to claim 18 where the multiple component fluid comprises lithium bromide, ammonia and water. 27. The system according to claim 24 where the desorber is constructed from a material substantially noncorrosive to ammonia. 28. The system according to claim 27 where the desorber is constructed from stainless, steel. 29. The system according to claim 28 where the desorber is constructed from stainless 304,314, or 316, and combinations thereof.
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