A bioprocessing system for a feed such as wastewater comprises an anaerobic reactor subsystem, an aerobic reactor subsystem, and a recycle loop for partial recycling of the aerobic reactor subsystem effluent. The anaerobic reactor subsystem is capable of providing anaerobic processing of the wastewa
A bioprocessing system for a feed such as wastewater comprises an anaerobic reactor subsystem, an aerobic reactor subsystem, and a recycle loop for partial recycling of the aerobic reactor subsystem effluent. The anaerobic reactor subsystem is capable of providing anaerobic processing of the wastewater in the substantial absence of aerobic processing of the wastewater. The anaerobic reactor subsystem can include a single anaerobic reactor or a plurality of reactors. The aerobic reactor subsystem is in direct communication with the anaerobic reactor subsystem, with the aerobic reactor subsystem being capable of providing aerobic processing of the wastewater in the substantial absence of anaerobic processing of the wastewater. The aerobic reactor subsystem processes the wastewater from the anaerobic reactor subsystem without intervening bioprocessing of the wastewater. As with the anaerobic subsystem, the aerobic reactor subsystem can include a single aerobic bioreactor or a plurality of reactors. The recycle loop partially recycles an effluent from the aerobic reactor subsystem to an influent of the anaerobic reactor subsystem. The recycle loop provides a means for pH regulation, dilution of the feed, and nitrite-nitrate removal.
대표청구항▼
[ We claim:] [1.]1. A bioprocessing system for wastewater, comprising:an anaerobic bioreactor subsystem in feed communication with said wastewater, said anaerobic bioreactor subsystem capable of providing fixed film anaerobic processing of said wastewater in the substantial absence of aerobic proces
[ We claim:] [1.]1. A bioprocessing system for wastewater, comprising:an anaerobic bioreactor subsystem in feed communication with said wastewater, said anaerobic bioreactor subsystem capable of providing fixed film anaerobic processing of said wastewater in the substantial absence of aerobic processing of said wastewater, said anaerobic processing comprising a step of substantial total organic carbon degradation of more than 50% and up to about 90% in said wastewater and a step of substantial denitrification in said wastewater;an aerobic bioreactor subsystem downstream of said anaerobic reactor subsystem such that said aerobic bioreactor subsystem can directly receive an effluent from said anaerobic bioreactor subsystem in the substantial absence of additional bioprocessing of total organic carbon in said anaerobic bioreactor subsystem effluent, said additional bioprocessing being less than 50% and down to about 10%, said aerobic bioreactor subsystem capable of providing fixed film aerobic processing of said wastewater in the substantial absence of anaerobic processing of said wastewater, said aerobic processing comprising a step of nitrification in said wastewater; anda recycle loop for directly recycling a portion of an effluent from said aerobic bioreactor subsystem to an influent of said anaerobic bioreactor subsystem, said portion of effluent being in an amount sufficient to provide for continuous, self-regulation of pH in said anaerobic bioreactor subsystem. [8.]8. A bioprocessing system for wastewater that provides aeration in a micro-gravity environment, comprising:a feed source comprising said wastewater;an anaerobic bioreactor subsystem in feed communication with said feed source, said anaerobic bioreactor subsystem comprising a first fixed film membrane bioreactor enabling total organic carbon degradation of more than 50% and up to about 90% in said wastewater and substantial denitrification of nitrites and nitrates in said wastewater;an aerobic bioreactor subsystem in feed communication with said anaerobic bioreactor subsystem, said aerobic bioreactor subsystem comprising a second fixed film membrane bioreactor enabling insubstantial total organic carbon degradation of less than 50% and down to about 10% in said wastewater and substantial nitrification of ammonium ions in said wastewater to said nitrites and nitrates;an inorganic carbon source in communication with an influent to said aerobic bioreactor subsystem; anda recycle loop for directly recycling a portion of an effluent from said aerobic bioreactor subsystem to an influent of said anaerobic bioreactor subsystem, said portion of effluent being in an amount that enables continuous, self-regulating pH control. [14.]14. A method of bioprocessing, comprising the steps of:anaerobically processing a feed in an anaerobic bioreactor subsystem which is substantially incapable of aerobically processing said feed, the step of anaerobically processing including a step of substantial total organic carbon degradation of more than 50% and up to about 90% in said feed and a step of substantial denitrification in said feed;aerobically processing said feed in an aerobic bioreactor subsystem which is in direct feed communication with said anaerobic bioreactor subsystem, said aerobic bioreactor subsystem being substantially incapable of anaerobically processing said feed such that the anaerobic processing in said aerobic bioreactor is less than 50% and down to about 10%, said aerobic processing providing a step of nitrification in said feed; andrecycling said feed in a recycle loop from a portion of an effluent of said aerobic bioreactor subsystem and directly to an influent of said anaerobic bioreactor subsystem, said portion of effluent being in amount sufficient to provide for continuous, self-regulating pH in said anaerobic bioreactor subsystem.15. The method of claim 14, wherein the step of aerobically processing follows the step of anaerobically processing in the substantial absence of an intervening step of further bioprocessing of said feed.16. The method of claim 14, further comprising the step of providing said feed to said anaerobic bioreactor subsystem from a feed source upstream of said anaerobic bioreactor subsystem.17. The method of claim 14, further comprising the step of providing an inorganic carbon source upstream of said aerobic bioreactor subsystem. [18.]18. A method of bioprocessing wastewater, comprising the steps of:providing a wastewater source;anaerobically processing said wastewater in an anaerobic fixed film membrane bioreactor subsystem that is in communication with said wastewater source, said anaerobic bioreactor subsystem being substantially incapable of aerobically processing said wastewater, the step of anaerobically processing comprising a step of total organic carbon degradation of more than 50% and up to about 90% in said wastewater and a step of substantial denitrification of said wastewater;aerobically processing said wastewater in an aerobic fixed film membrane bioreactor subsystem which is directly downstream of said anaerobic bioreactor subsystem, said aerobic bioreactor subsystem being substantially incapable of anaerobically processing said wastewater, the step of aerobically processing comprising a step of insubstantial total organic carbon degradation of less than 50% and down to about 10% in said wastewater and a step of substantial nitrification of said wastewater; andrecycling said wastewater in a recycle loop a portion of an effluent of said aerobic bioreactor subsystem and directly to an influent of said anaerobic bioreactor subsystem, said portion of effluent being in amount sufficient to provide for continuous, self-regulating pH in said anaerobic bioreactor subsystem.19. The method of claim 18, further comprising the step of providing an inorganic carbon source in communication with an influent of said aerobic bioreactor subsystem.
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