System and method for separating biomass from media in a fluidized bed reactor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C12M-001/00
C12M-003/00
출원번호
UP-0877338
(2004-06-25)
등록번호
US-7611890
(2009-11-16)
발명자
/ 주소
Frisch, Samuel
Loudon, Robert E.
대리인 / 주소
RatnerPrestia
인용정보
피인용 횟수 :
0인용 특허 :
29
초록▼
A system is provided for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media. A lift, configured to extend within the reactor, has an inlet for receiving aqueous suspension and an outlet spaced from the inlet for delivering the aqueous suspe
A system is provided for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media. A lift, configured to extend within the reactor, has an inlet for receiving aqueous suspension and an outlet spaced from the inlet for delivering the aqueous suspension from the lift. A shield is disposed about the lift. The system further includes a biomass separator body, including an inner member disposed about the shield and an outer member. Three annular passageways are defined between the lift, the shield, the inner member, and the outer member, and are positioned to receive aqueous suspension from each other. A barrier extends between the inner member and the outer member at an end portion of the third annular passageway. The barrier of the biomass separator body is configured to direct biomass from the third annular passageway toward an excess biomass discharge.
대표청구항▼
What is claimed: 1. A method for separating biomass from solid media in a fluidized bed reactor containing an aqueous suspension of biomass and solid media, said method comprising the steps of: feeding gas into a lift extending within the fluidized bed reactor, thereby urging aqueous suspension fro
What is claimed: 1. A method for separating biomass from solid media in a fluidized bed reactor containing an aqueous suspension of biomass and solid media, said method comprising the steps of: feeding gas into a lift extending within the fluidized bed reactor, thereby urging aqueous suspension from an inlet of the lift toward an outlet formed in the lift; directing aqueous suspension through the outlet of the lift to a first annular passageway and; flowing aqueous suspension from an outlet of the first annular passageway to a second annular passageway, thereby separating solid media from biomass; redirecting aqueous suspension from the second annular passageway through at least one aperture to a third annular passageway, thereby separating additional solid media from biomass; and discharging biomass from the third annular passageway. 2. The method of claim 1, wherein said step of directing aqueous suspension from the outlet of the lift to a first annular passageway comprises maintaining a shield about the lift to define the first annular passageway. 3. The method of claim 1, wherein said step of flowing aqueous suspension from the first annular passageway to a second annular passageway comprises maintaining an inner member of a separator body about the shield to define the second annular passageway. 4. The method of claim 1, wherein said step of redirecting aqueous suspension from the second annular passageway to a third annular passageway comprises maintaining an outer member of a separator body about an inner member of the separator body to define the third annular passageway. 5. The method of claim 1, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an interior of the third annular passageway. 6. The method of claim 1, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an exterior of the third annular passageway. 7. The method of claim 1, further comprising the step of deflecting media exiting from the first or second annular passageway away from the inlet of the lift. 8. A method for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media, said method comprising the steps of: feeding gas into a lift extending within the fluidized bed reactor, thereby urging aqueous suspension from an inlet of the lift toward an outlet formed in the lift; directing aqueous suspension through the outlet of the lift to a first annular passageway and maintaining a shield about the lift to define the first annular passageway; flowing aqueous suspension from the first annular passageway at a lower end of the shield to a second annular passageway, thereby separating media from biomass; redirecting aqueous suspension from the second annular passageway through at least one aperture to a third annular passageway; and discharging biomass from the third annular passageway. 9. The method of claim 8, wherein said step of redirecting aqueous suspension from the second annular passageway to a third annular passageway comprises maintaining an outer member of a separator body about an inner member of the separator body to define the third annular passageway. 10. The method of claim 8, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an interior of the third annular passageway. 11. The method of claim 8, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an exterior of the third annular passageway. 12. A method for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media, said method comprising the steps of: feeding gas into a lift extending within the fluidized bed reactor, thereby urging aqueous suspension from an inlet of the lift toward an outlet formed in the lift; directing aqueous suspension through the outlet of the lift to a first annular passageway; flowing aqueous suspension from an outlet the first annular passageway to a second annular passageway, thereby separating media from biomass, and maintaining an inner member of a separator body about the shield to define the second annular passageway; redirecting aqueous suspension from the second annular passageway through the inner member to a third annular passageway; and discharging biomass from the third annular passageway. 13. The method of claim 12, wherein said step of redirecting aqueous suspension from the second annular passageway to a third annular passageway comprises maintaining an outer member of a separator body about an inner member of the separator body to define the third annular passageway. 14. The method of claim 12, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an interior of the third annular passageway. 15. The method of claim 12, wherein said step of redirecting aqueous suspension from the second annular passageway to a third annular passageway comprises maintaining an outer member of a separator body about an inner member of the separator body to define the third annular passageway. 16. A method for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media, said method comprising the steps of: feeding gas into a lift extending within the fluidized bed reactor, thereby urging aqueous suspension from an inlet of the lift toward an outlet formed in the lift; directing aqueous suspension through the outlet of the lift to a first annular passageway; flowing aqueous suspension from an outlet of the first annular passageway to an inlet of a second annular passageway, thereby separating media from biomass; redirecting aqueous suspension from an outlet formed in the second annular passageway to a third annular passageway; discharging biomass from the third annular passageway; and deflecting media exiting from the first or second annular passageway away from the inlet of the lift. 17. The method of claim 16, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an interior of the third annular passageway. 18. The method of claim 16, wherein said step of discharging biomass from the third annular passageway comprises discharging biomass from an exterior of the third annular passageway. 19. The method of claim 16, further comprising the step of deflecting media exiting from the first or second annular passageway away from the inlet of the lift. 20. The method of claim 1, wherein said step of flowing aqueous suspension from the outlet of the first annular passageway to the second annular passageway comprises separating solid media from biomass such that separated solid media moves downwardly with respect to the biomass. 21. The method of claim 1, further comprising the step of adjusting the flow rate of the aqueous suspension from the second annular passageway to the third annular passageway. 22. The method of claim 21, wherein said step of adjusting the flow rate of the aqueous suspension from the second annular passageway to the third annular passageway comprises adjusting the elevation of the at least one aperture relative to the outlet of the first annular passageway.
Hering ; Jr. Carl J. (2920 NW. 67th Ct. Ft. Lauderdale FL 33309), Filtration method and apparatus having a filtrate collection chamber within the filter bed.
Elmaleh Samuel (Castelnau le Lez FRX) Grasmick Alain (Montferrier/Lez FRX), Process for the treatment and purification of water by the flocculation of suspended particles in a fluidized bed.
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