Microalgal biomass production and nutrients removal from domestic sewage in a hybrid high-rate pond with biofilm reactor

Microalgal biomass production and nutrients removal from domestic sewage in a hybrid high-rate pond with biofilm reactor

•Biofilm reactors had higher biomass production than conventional high-rate ponds.•Biofilm reactor overcame carbon limitation of the culture medium.•Hybrid systems were efficient for domestic sewage treatment.•Attached biomass was easily harvested, non-requiring extra concentration.•Attached biomass...

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Bibliographic Details
Published in:Ecological engineering Vol. 106; pp. 191 - 199
Main Authors: de Assis, Letícia Rodrigues, Calijuri, Maria Lúcia, do Couto, Eduardo de Aguiar, Assemany, Paula Peixoto
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-09-2017
Elsevier BV
Subjects:
Algae
Algal biofilm
Attached growth
Bacteria
Bacterial-microalgae consortia
Biofilms
Biomass
Biomass collection
Bioreactors
Carbon dioxide
Consortia
Contamination
Domestic sewage treatment
Feces
Growth media
Harvesting
Household wastes
Hybrid systems
Mineral nutrients
Nutrient removal
Nutrients
Organic matter
Ponds
Reactors
Removal
Sewage
Sewage treatment
Sewage treatment plants
Supplements
Waste treatment
Wastewater treatment
Bacterial-microalgae consortia
Biomass collection
Domestic sewage treatment
Algal biofilm
Attached growth
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Summary:•Biofilm reactors had higher biomass production than conventional high-rate ponds.•Biofilm reactor overcame carbon limitation of the culture medium.•Hybrid systems were efficient for domestic sewage treatment.•Attached biomass was easily harvested, non-requiring extra concentration.•Attached biomass was suitable for animal supplementation and anaerobic digestion. In this study, biomass production and domestic sewage treatment in hybrid systems under bacterial-microalga consortia were assessed. Biomass was grown suspended in the growth media of high-rate ponds (HRPs) and attached in biofilm reactors (BRs). These hybrid systems were operated with and without the addition of CO2 (HS2 and HS1, respectively) in the HRP growth media. The performances of these systems were compared with that of a conventional HRP with CO2 supplementation. Regarding sewage treatment with microalgae and bacteria consortia, the three systems showed no significant differences in the removal of organisms associated with faecal contamination, organic matter and most nutrients. However, nitrate levels were increased in the hybrid systems due to the presence of BRs. There were no differences in algal biomass production among the three systems, which remained in the 0.6–0.7gm−2 range. HS1 showed the highest total biomass production of 101.31gm−2 at a production rate of 6.79gm−2day−1. The BR of HS1 was able to supply the necessary CO2 and therefore no additional gas supplementation was required. This result indicates that a conventional HRP with CO2 supplementation can be replaced by a hybrid system with biofilm reactor, with additional advantages of resources saving, operational simplicity and easier harvesting.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2017.05.040