Microalgae cultivation in urban wastewater: Nutrient removal and biomass production for biodiesel and methane

Microalgae cultivation in urban wastewater: Nutrient removal and biomass production for biodiesel and methane

The freshwater microalgae species Chlorella kessleri and Chlorella vulgaris, and the marine microalgae species Nannochloropsis oculata were cultivated in urban wastewater. The freshwater species demonstrated the possibility of growing in urban wastewater reaching high biomass production and nutrient...

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Bibliographic Details
Published in:Algal research (Amsterdam) Vol. 10; pp. 232 - 239
Main Authors: Caporgno, M.P., Taleb, A., Olkiewicz, M., Font, J., Pruvost, J., Legrand, J., Bengoa, C.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2015
Elsevier
Subjects:
Biodiesel
Biotechnology
Chemical and Process Engineering
Engineering Sciences
Life Sciences
Methane
Microalgae cultivation
Municipal wastewater
Nitrogen starvation
Nutrient removal
Methane
Microalgae cultivation
Nutrient removal
Biodiesel
Nitrogen starvation
Municipal wastewater
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Summary:The freshwater microalgae species Chlorella kessleri and Chlorella vulgaris, and the marine microalgae species Nannochloropsis oculata were cultivated in urban wastewater. The freshwater species demonstrated the possibility of growing in urban wastewater reaching high biomass production and nutrient removal when cultured in batch mode using a flat-panel airlift photobioreactor. Both microalgae species reached high biomass dry weights, 2.70±0.08g/L and 2.91±0.02g/L respectively, accompanied by nitrogen concentration reduction around 96% and 95%, and a phosphorous concentration reduction around 99% and 98% respectively. N. oculata was able to uptake nutrients from wastewater to grow but with less efficiency, indicating the need of microalgae acclimation or process optimisation to achieve high nutrient removals. During C. kessleri and C. vulgaris cultivation, the nitrogen consumption led to a progressive N-starvation process which increased the microalgae potential for biofuels production; both species produced 346±3mLCH4/gVS and 415±2mLCH4/gVS during anaerobic digestion, and 7.4±0.2gBiodiesel/100gVS and 11.3±0.1gBiodiesel/100gVS respectively. [Display omitted] •The wastewater provides nutrients for freshwater and marine microalgae cultivation.•High microalgae growth is observed in the freshwater species when centrate is used.•C. kessleri and C. vulgaris remove >95% TN and >98% TP when grown in wastewater.•C. kessleri and C. vulgaris produce more CH4 than substrates commonly digested.•The N-starvation derived from nutrient removal is beneficial for biofuels production.
ISSN:2211-9264
2211-9264
DOI:10.1016/j.algal.2015.05.011