Technical optimization of an integrated UF/NF pilot plant for conjoint batch treatment of two-phase olives and olive oil washing wastewaters

The membrane plant dimension and fouling control strategy of an integrated batch UF and NF membranes-in-series process is addressed for the simultaneous treatment of the two main effluents generated in olive mills operating with the two-phase technology, in particular wastewater derived from the was...

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Veröffentlicht in:	Desalination 2015-05, Vol.364, p.82-89
Hauptverfasser:	Ochando-Pulido, J.M., Verardo, V., Segura-Carretero, A., Martinez-Ferez, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Effluents Fouling Freshwater Mathematical models Membranes Modeling Nanofiltration Olive mill wastewater Olives Titanium dioxide Ultrafiltration Washing Wastewater reclamation Wastewater treatment
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creator	Ochando-Pulido, J.M. Verardo, V. Segura-Carretero, A. Martinez-Ferez, A.
description	The membrane plant dimension and fouling control strategy of an integrated batch UF and NF membranes-in-series process is addressed for the simultaneous treatment of the two main effluents generated in olive mills operating with the two-phase technology, in particular wastewater derived from the washing of the olives (OWW) and from the olive oil washing during the vertical centrifugation (OOW). Beforehand, the raw effluent, that is, 1:1v/v mixture of OWW and OOW, called OWMW2, was pretreated by pH–temperature flocculation stand-alone or followed by photocatalysis with TiO2 nanoparticles under UV irradiation. The proposed model is able to predict the permeate flux performance of the selected membranes at a given time as a function of the applied pressure and organic matter load of the feedstock accurately. Moreover, working upon threshold conditions provides significant and stable fluxes, 15.5Lh−1m−2 on the UF membrane and 22.2Lh−1m−2 on the NF one, minor fouling build up (28.6–33.3% reduction) as well as required membrane area, 170.3 and 61m2, respectively. Finally, the treatment line just comprising UF preceded by pH–T flocculation and UV/TiO2 photocatalysis provides an effluent compatible for irrigation and permits the minimum membrane plant dimension (only 6 total modules). •Conjoint treatment of effluents from olive mills operating with two-phase technology•UF preceded by pH–T flocculation and UV/TiO2 photocatalysis•Working upon threshold conditions provides significant and stable permeate flux.•Minor fouling build up (28.6–33.3% reduction) and membrane area, 170.3 and 61m2•Final effluent compatible for irrigation purposes
doi_str_mv	10.1016/j.desal.2014.10.040
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Beforehand, the raw effluent, that is, 1:1v/v mixture of OWW and OOW, called OWMW2, was pretreated by pH–temperature flocculation stand-alone or followed by photocatalysis with TiO2 nanoparticles under UV irradiation. The proposed model is able to predict the permeate flux performance of the selected membranes at a given time as a function of the applied pressure and organic matter load of the feedstock accurately. Moreover, working upon threshold conditions provides significant and stable fluxes, 15.5Lh−1m−2 on the UF membrane and 22.2Lh−1m−2 on the NF one, minor fouling build up (28.6–33.3% reduction) as well as required membrane area, 170.3 and 61m2, respectively. 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Beforehand, the raw effluent, that is, 1:1v/v mixture of OWW and OOW, called OWMW2, was pretreated by pH–temperature flocculation stand-alone or followed by photocatalysis with TiO2 nanoparticles under UV irradiation. The proposed model is able to predict the permeate flux performance of the selected membranes at a given time as a function of the applied pressure and organic matter load of the feedstock accurately. Moreover, working upon threshold conditions provides significant and stable fluxes, 15.5Lh−1m−2 on the UF membrane and 22.2Lh−1m−2 on the NF one, minor fouling build up (28.6–33.3% reduction) as well as required membrane area, 170.3 and 61m2, respectively. 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subjects	Effluents Fouling Freshwater Mathematical models Membranes Modeling Nanofiltration Olive mill wastewater Olives Titanium dioxide Ultrafiltration Washing Wastewater reclamation Wastewater treatment
title	Technical optimization of an integrated UF/NF pilot plant for conjoint batch treatment of two-phase olives and olive oil washing wastewaters
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