This work studies the best method for operating batch membrane processes in the presence of fouling. The case was the purification of olive washing wastewater. First, experimental work in a pilot plant consisting of a ultrafiltration and a nanofiltration process in series is reported. The critical fluxes for both operations were determined with reference to different pollutant concentrations, and the prediction equations were derived from the best fitting of the experimental results. Then the best strategy to fix the operating permeate flux rate is discussed. Adopting a permeate flux around the predicted value of the critical flux at the end of the specific membrane batch process seems to be the best procedure to assure the recovery target and extend the membrane's life.

This work studies the best method for operating batch membrane processes in the presence of fouling. The case was the purification of olive washing wastewater. First, experimental work in a pilot plant consisting of a ultrafiltration and a nanofiltration process in series is reported. The critical fluxes for both operations were determined with reference to different pollutant concentrations, and the prediction equations were derived from the best fitting of the experimental results. Then the best strategy to fix the operating permeate flux rate is discussed. Adopting a permeate flux around the predicted value of the critical flux at the end of the specific membrane batch process seems to be the best procedure to assure the recovery target and extend the membrane's life.

Optimization of membrane batch processes by means of the critical flux theory / Stoller, Marco; Chianese, Angelo. - In: DESALINATION. - ISSN 0011-9164. - STAMPA. - 191:1-3(2006), pp. 62-70. (Intervento presentato al convegno International Congress on Membranes and Membrane Processes tenutosi a Seoul, SOUTH KOREA nel AUG 21-26, 2005) [10.1016/j.desal.2005.07.021].

Optimization of membrane batch processes by means of the critical flux theory

STOLLER, Marco;CHIANESE, Angelo
2006

Abstract

This work studies the best method for operating batch membrane processes in the presence of fouling. The case was the purification of olive washing wastewater. First, experimental work in a pilot plant consisting of a ultrafiltration and a nanofiltration process in series is reported. The critical fluxes for both operations were determined with reference to different pollutant concentrations, and the prediction equations were derived from the best fitting of the experimental results. Then the best strategy to fix the operating permeate flux rate is discussed. Adopting a permeate flux around the predicted value of the critical flux at the end of the specific membrane batch process seems to be the best procedure to assure the recovery target and extend the membrane's life.
2006
International Congress on Membranes and Membrane Processes
This work studies the best method for operating batch membrane processes in the presence of fouling. The case was the purification of olive washing wastewater. First, experimental work in a pilot plant consisting of a ultrafiltration and a nanofiltration process in series is reported. The critical fluxes for both operations were determined with reference to different pollutant concentrations, and the prediction equations were derived from the best fitting of the experimental results. Then the best strategy to fix the operating permeate flux rate is discussed. Adopting a permeate flux around the predicted value of the critical flux at the end of the specific membrane batch process seems to be the best procedure to assure the recovery target and extend the membrane's life.
wastewater; critical flux; membrane; wash; olive
04 Pubblicazione in atti di convegno::04c Atto di convegno in rivista
Optimization of membrane batch processes by means of the critical flux theory / Stoller, Marco; Chianese, Angelo. - In: DESALINATION. - ISSN 0011-9164. - STAMPA. - 191:1-3(2006), pp. 62-70. (Intervento presentato al convegno International Congress on Membranes and Membrane Processes tenutosi a Seoul, SOUTH KOREA nel AUG 21-26, 2005) [10.1016/j.desal.2005.07.021].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/363377
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