Effect of light intensity and nutrients supply on microalgae cultivated in urban wastewater: Biomass production, lipids accumulation and settleability characteristics

Microalgae cultivation systems fed with wastewater as source of nutrients represents the principal sustainable condition to produce microalgal biomass to be converted conveniently to biofuels. In order to optimize microalgae growth and their lipid content, the effect of light intensity and nutrients...

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Bibliographic Details
Published in:Journal of environmental management 2018-10, Vol.223, p.1078-1085
Main Authors: Iasimone, F., Panico, A., De Felice, V., Fantasma, F., Iorizzi, M., Pirozzi, F.
Format: Article
Language:English
Subjects:
Autoflocculation
Light intensity
Lipids
Microalgae
Wastewater
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Summary:Microalgae cultivation systems fed with wastewater as source of nutrients represents the principal sustainable condition to produce microalgal biomass to be converted conveniently to biofuels. In order to optimize microalgae growth and their lipid content, the effect of light intensity and nutrients load in real wastewater was investigated through batch microalgal cultivation tests. A microalgal polyculture was used as inoculum and grown for 10 days in batch at different conditions of light intensity (i.e. 20, 50 and 100 μmol s−1m−2) and nutrients concentration in wastewater. Experimental results showed that biomass productivity decreased for rich nutrients conditions and increased for high light intensities. The highest lipid mass content (29%) was found for high light intensity condition (100 μmol s−1m−2). Furthermore, microalgae settleability tests, conducted at the end of the cultivation time, resulted in the highest biomass recovery efficiency (72%) for low light intensity and nutrients supply conditions. •Low nutrients and high light conditions enhanced biomass and lipids accumulation.•Low to high light intensity shifts nitrite accumulation to ammonia removal.•Natural presence of bicarbonate enhance biomass grow.•72% of biomass recovery was reached through autoflocculation.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2018.07.024