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Integration of membrane processes for the recovery and separation of polyphenols from winery and olive mill wastes using green solvent-based processing
P. Tapia-Quirós, M.F. Montenegro LandÃvar, M. Reig, X. Vecino, J. Saurina, M. Granados, J.L. Cortina
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Journal of Environmental Management
Highlights
For MF and UF processes trans-membrane flux was dependent of the feed flow rate.
Trans-membrane flux was independent of the feed flow rate for NF and RO processes.
MF membranes (0.22–0.45 μm) removed impurities and suspended solids from samples.
UF membrane (30 kDa) rejected about 72% of flavonoids from lees filters extracts.
NF membranes (DURACID and NF270) were the most selective for polyphenols separation.
Cite this paper:
Tapia-Quirós, P., Montenegro-LandÃvar, M.F., Reig, M., Vecino, X., Saurina, J., Granados, M., Cortina, J.L., 2022. Integration of membrane processes for the recovery and separation of polyphenols from winery and olive mill wastes using green solvent-based processing. Journal of Environmental Management 307, 114555.