2004
DOI: 10.1002/jctb.1180
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Development of a membrane‐assisted hybrid bioreactor for ammonia and COD removal in wastewaters

Abstract: A new membrane-assisted hybrid bioreactor was developed to remove ammonia and organic matter. This system was composed of a hybrid circulating bed reactor (CBR) coupled in series to an ultrafiltration membrane module for biomass separation. The growth of biomass both in suspension and biofilms was promoted in the hybrid reactor. The system was operated for 103 days, during which a constant ammonia loading rate (ALR) was fed to the system. The COD/N-NH 4 + ratio was manipulated between 0 and 4, in order to stud… Show more

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Cited by 10 publications
(7 citation statements)
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“…Oyanedel [5] obtained similar results in previous research using a similar hybrid MBR operated at a similar NLR. The nitrifying capacity of the biomass was determined when the reactor was operated with wastewaters coming from the fish-canning factory (Fig.…”
Section: Oxidizing Capacity O F the Biomasssupporting
confidence: 89%
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“…Oyanedel [5] obtained similar results in previous research using a similar hybrid MBR operated at a similar NLR. The nitrifying capacity of the biomass was determined when the reactor was operated with wastewaters coming from the fish-canning factory (Fig.…”
Section: Oxidizing Capacity O F the Biomasssupporting
confidence: 89%
“…The suspended biomass concentration was measured in terms of volatile suspended solids. Determination of the nitrifying and heterotrophie activities for both biofilm and suspended biomass was made by biological oxygen monitoring (Yellowspring Instruments YSI-3500) according to the methodology described elsewhere [5].…”
Section: Methodsmentioning
confidence: 99%
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“…The results revealed that the two‐stage UASB reactor was capable of overcoming the limitations of the single‐stage UASB in the simultaneous removal of sulfur and nitrogen compounds from CLW. Nevertheless, such a two‐stage bioreactor requires high operational costs and area, although an anaerobic hybrid bioreactor combined with nylon fiber inside the reactor has been used as a high‐rate anaerobic reactor to treat agro‐industrial wastewater . Therefore, in this study, we investigated simultaneous sulfur and nitrogen compound removal in a micro‐oxygen hybrid bioreactors (MOHR) consisting of two distinct zones, i.e.…”
Section: Introductionmentioning
confidence: 99%