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-0108092
(2008-04-23)
등록번호
US-7572626
(2009-08-25)
발명자
/ 주소
Frisch, Samuel
Loudon, Robert E.
출원인 / 주소
Shaw Intellectual Property Holdings, Inc.
대리인 / 주소
RatnerPrestia
인용정보
피인용 횟수 :
24인용 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 system for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media, said system comprising: a lift configured to extend within the reactor, said lift having an inlet for receiving aqueous suspension and an outlet spaced fr
What is claimed: 1. A system for separating biomass from media in a fluidized bed reactor containing an aqueous suspension of biomass and media, said system comprising: a lift configured to extend within the reactor, said lift having an inlet for receiving aqueous suspension and an outlet spaced from said inlet for delivering the aqueous suspension from said lift; a gas inlet positioned to feed gas into said lift for urging the aqueous suspension toward said outlet of said lift; a shield disposed about said lift and defining a first annular passageway between said shield and said lift, said first annular passageway being positioned to receive aqueous suspension from said outlet of said lift; and a biomass separator body comprising, an inner member disposed about said shield, a second annular passageway being defined between said inner member of said biomass separator body and said shield, said second annular passageway being positioned to receive aqueous suspension from said first annular passageway, an outer member, a third annular passageway being defined between said inner member and said outer member, said third annular passageway being positioned to receive aqueous suspension from said second annular passageway, a barrier extending between said inner member and said outer member at an end portion of said third annular passageway, and an excess biomass discharge in fluid communication with said third annular passageway; wherein said barrier of said biomass separator body is configured to direct biomass from said third annular passageway toward said excess biomass discharge. 2. The system of claim 1 further comprising a deflector positioned to deflect media exiting said inner member. 3. The system of claim 2, wherein said deflector is angled with respect to a longitudinal axis of said inner member to direct media away from said inlet of said lift. 4. The system of claim 2, wherein said deflector is oriented to promote movement of aqueous suspension in the fluidized bed reactor. 5. The system of claim 1, wherein the position of said biomass separator body is adjustable relative to said lift. 6. The system of claim 1, wherein said barrier is downwardly sloped to reduce buildup of biomass within said third annular passageway. 7. The system of claim 1, wherein an end portion of said third annular passageway is open for ease of cleaning. 8. The system of claim 1, wherein said excess biomass discharge is positioned on said inner member of said biomass separator body. 9. The system of claim 1, wherein said excess biomass discharge is positioned on said outer member of said biomass separator body. 10. A fluidized bed reactor comprising: a reactor vessel configured to contain an aqueous suspension of biomass and media; a lift configured to extend within said reactor vessel, said lift having an inlet for receiving aqueous suspension and an outlet spaced from said inlet for delivering the aqueous suspension from said lift; a gas inlet positioned to feed gas into said lift for urging the aqueous suspension toward said outlet of said lift; a shield disposed about said lift and defining a first annular passageway between said shield and said lift, said first annular passageway being positioned to receive aqueous suspension from said outlet of said lift; and a biomass separator body comprising, an inner member disposed about said shield, a second annular passageway being defined between said inner member of said biomass separator body and said shield, said second annular passageway being positioned to receive aqueous suspension from said first annular passageway, an outer member, a third annular passageway being defined between said inner member and said outer member, said third annular passageway being positioned to receive aqueous suspension from said second annular passageway, a barrier extending between said inner member and said outer member at an end portion of said third annular passageway, and an excess biomass discharge in fluid communication with said third annular passageway, said excess biomass discharge being connected to deliver excess biomass from said reactor vessel; wherein said barrier of said biomass separator body is configured to direct biomass from said third annular passageway toward said excess biomass discharge. 11. The fluidized bed reactor of claim 10 further comprising a deflector positioned to deflect media exiting said inner member. 12. The fluidized bed reactor of claim 11, wherein said deflector is angled with respect to a longitudinal axis of said inner member to direct media away from said inlet of said lift. 13. The fluidized bed reactor of claim 11, wherein said deflector is oriented to promote movement of aqueous suspension in said reactor vessel. 14. The fluidized bed reactor of claim 10, wherein the position of said biomass separator body is adjustable relative to said lift. 15. The fluidized bed reactor of claim 10, wherein said barrier is downwardly sloped to reduce buildup of biomass within said third annular passageway. 16. The fluidized bed reactor of claim 10, wherein an end portion of said third annular passageway is open for ease of cleaning. 17. The fluidized bed reactor of claim 10, wherein said excess biomass discharge is positioned on said inner member of said biomass separator body. 18. The fluidized bed reactor of claim 10, wherein said excess biomass discharge is positioned on said outer member of said biomass separator body.
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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