PHOTOBIOTREATMENT: INFLUENCE OF NITROGEN AND PHOSPHORUS RATIO IN WASTEWATER ON GROWTH KINETICS OF SCENEDESMUS OBLIQUUS

Nitrogen and phosphorus concentration in the effluent of a wastewater treatment plant can vary significantly, which could affect the growth kinetic and chemical composition of microalgae when cultivated in this medium. The aim of this work was to study the rate of growth, nutrient removal and carbon...

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Bibliographic Details
Published in:International journal of phytoremediation 2013-09, Vol.15 (8), p.774-788
Main Authors: Arbib, Z., Ruiz, J., Álvarez-Díaz, Pablo, Garrido-Pérez, C., Barragan, J., Perales, J. A.
Format: Article
Language:English
Subjects:
Algae
Biodegradation, Environmental
Biomass
Carbon dioxide
Carbon Dioxide - metabolism
Lipid Metabolism
Lipids
n:p ratio
Nitrogen
Nitrogen - metabolism
Nitrogen - pharmacology
Nutrient removal
Phosphorus
Phosphorus - metabolism
Phosphorus - pharmacology
photobiotreatment
Productivity
Proteins
Proteins - metabolism
Scenedesmus - drug effects
Scenedesmus - growth & development
Scenedesmus - metabolism
Scenedesmus obliquus
Waste Disposal, Fluid - methods
Waste water
Waste Water - chemistry
Water treatment plants
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Summary:Nitrogen and phosphorus concentration in the effluent of a wastewater treatment plant can vary significantly, which could affect the growth kinetic and chemical composition of microalgae when cultivated in this medium. The aim of this work was to study the rate of growth, nutrient removal and carbon dioxide biofixation as well as biomass composition of Scenedesmus obliquus (S. obliquus) when it is cultivated in wastewater at different nitrogen and phosphorus ratio, from 1:1 to 35:1. A more homogeneous method for calculating productivities in batch reactors was proposed. The proper N:P ratio for achieving optimum batch biomass productivity ranged between 9 and 13 (263 and 322 mg L −1 d −1 respectively). This was also the ratio range for achieving a total N and P removal. Above and below this range (9-13) the maximum biomass concentration changed, instead of the specific growth rate.The maximum carbon dioxide biofixation rate was achieved at N:P ratio between 13 and 22 (553 and 557 mg CO2 L −1 d −1 respectively). Lipid and crude protein content, both depend on the aging culture, reaching the maximum lipid content (34%) at the lowest N:P (1:1) and the maximum crude protein content (34.2%) at the highest N:P (35:1).
ISSN:1522-6514
1549-7879
DOI:10.1080/15226514.2012.735291