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Article Dans Une Revue Separation and Purification Technology Année : 2022

Exploiting flocculation and membrane filtration synergies for highly energy-efficient, high-yield microalgae harvesting

Résumé

High energy consumption during harvesting is one of the main bottlenecks for sustainable microalgae production. Membranes can efficiently separate microalgae from liquids with low energy consumption, but membrane fouling remains an important issue. Flocculation prior to membrane filtration can increase membrane fluxes and decrease fouling, thus offering a low-cost and efficient solution to harvest microalgae. Biobased cationic cellulose nanocrystals were successfully used as flocculants for microalgae and were effective over a wide pH-range and for both freshwater and marine microalgae. Such flocculation was for the first time combined with vibration-assisted filtration using a charged, surface patterned membrane, enabling operation at very high flux (95 L/m2 h) using a vibration frequency of only 1 Hz, and even under sub-optimal flocculation conditions. Intermittent vibration decreased energy consumption further while keeping excellent filtration performance to finally achieve a record-low energy consumption for the membrane filtration of only 6.7 Wh/m3, which is andgt;25-times lower than that of normal membrane filtration. Interaction forces revealed that increasing particle size through flocculation prior to membrane filtration can significantly prevent microalgae attachment on the vibrating membrane surface. This work opens a new direction for sustainable microalgae harvesting with an ultra-low energy consumption, combined with a very high microalgae recovery, reduced use of chemicals, and lower membrane investment cost.
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Dates et versions

hal-03718192 , version 1 (21-07-2022)

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Z. Zhao, J. Blockx, K. Muylaert, W. Thielemans, A. Szymczyk, et al.. Exploiting flocculation and membrane filtration synergies for highly energy-efficient, high-yield microalgae harvesting. Separation and Purification Technology, 2022, 296, pp.121386. ⟨10.1016/j.seppur.2022.121386⟩. ⟨hal-03718192⟩
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