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W2591282495 abstract "Microalgae are often used as feedstock for renewable biofuel production and as pollutant up-takers for wastewater treatment; however, biomass harvesting still remains a challenge in field applications. In this study, electro-flocculation using aluminium electrolysis was tested as a method to collect Chlorella vulgaris. The electrolysis products were positively charged over a wide pH range below 9.5, which gave them a flocculation potential for negatively charged microalgae. As flocculants were in-situ generated and gradually released, microalgae flocs formed in a snowballing mode, resulting in the compaction of large flocs. When higher current density was applied, microalgae could be harvested more rapidly, although there was a trade-off between a higher energy use and more residual aluminium in the culture medium. Benefits of this flocculation method are twofold: the phosphate decrease in post-harvesting could improve nutrient removal in microalgae based wastewater treatment, while the ammonium increase may favor microalgae recovery for medium recycling." @default.
W2591282495 created "2017-03-03" @default.
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W2591282495 date "2017-06-01" @default.
W2591282495 modified "2023-10-03" @default.
W2591282495 title "Synergy of flocculation and flotation for microalgae harvesting using aluminium electrolysis" @default.
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W2591282495 doi "https://doi.org/10.1016/j.biortech.2017.02.084" @default.
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