@article{10272/24965,
year = {2019},
month = {6},
url = {https://hdl.handle.net/10272/24965},
abstract = {Anaerobic digestion effluents contain nitrogen and phosphorous which require reduction to accomplish the corresponding discharge legislation. Microalgae can be used as an alternative treatment to reach the required effluent quality. However, only robust and fast growing microalgae species are required in order to ensure stable and efficient nutrient removal under the conditions existing in wastewater treatment plants. Consequently, maintaining a stable microalgae community adapted to this environment becomes a key issue. In this work, a localmicroalgal strainwas isolated from an anaerobic digester effluent (ADE). Microalgal growth was defined as the isolation criteria. The isolated microalgae were identified by molecular techniques as Chlorella sorokiniana (strain S12/S13/S16).
Nutrient removal capacity from the ADE was assessed for the isolated strain by cultivation on ADE in repeated batch mode. Growth was limited by phosphorus, which reached removal efficiencies close to 100%. Under such conditions, biomass productivity and growth rate were barely enhanced with CO2-enriched air not compensating the extra cost of CO2 addition. Finally, in order to close the
process scheme, the methane potential of the isolated C. sorokiniana was assessed. The methane production capacity was 376 mL CH4 g−1 volatile solids, similar to values reported for other microalgae species. The novelty of this work lies in the isolation of a robust local microalgal strain that ensures a high nutrient removal capacity from ADE. The efficiency and stability of the nutrient
removal process might be enhanced by isolation and controlled growth of local, robust, and also fast-growth microalgae species.},
organization = {This work was supported by the 7th Framework Programme of European Union, under the framework of the Algaenet
Project (Grant number PIRSES-GA-2011-295165).},
publisher = {Springer},
title = {Potential of a local microalgal strain isolated from anaerobic digester effluents for nutrient removal},
doi = {https://doi.org/10.1007/s10811-018-1546-7},
author = {Tapia, Camila and González Fermoso, Fernando and Serrano, Antonio and Torres, Álvaro and Jeison, David and Rivas, Mariella and Ruiz, Gonzalo and Vílchez Lobato, Carlos and Cuaresma Franco, María},
}