论文信息 - Effective fouling inhibition by critical flux based optimization methods on a NF membrane module for olive mill wastewater treatment

Effective fouling inhibition by critical flux based optimization methods on a NF membrane module for olive mill wastewater treatment

Abstract The operation of a spiral-wound nanofiltration membrane module used continuously for three years in order to purify different pretreated olive mill wastewater streams will be discussed. The membrane module was for the first time used at the beginning of year 2006 on a batch pilot scale plant for critical flux studies and wastewater treatment in our laboratories. The olive mill wastewater is a waste stream produced by the olive oil mill factories, characterized by very high organic matter load and polyphenols concentration. Without fouling inhibition at all, nanofiltration membranes will reach zero-flux conditions within days. This is not the case of this nanofiltration membrane module, which was successfully operated continuously for three years during our laboratory work. This result was reached by proper fouling inhibition control, relaying on both critical flux measurements and the development of an optimized operation method. Moreover, supercritical operation experiments were performed on another nanofiltration module of the same model in order to validate the approach.

Marco Stoller | M. Stoller

[1] Pierre Aimar,et al. On an experimental method to measure critical flux in ultrafiltration , 2002 .

[2] M. Bravi,et al. Critical flux analyses on differently pretreated olive vegetation waste water streams: Some case studies , 2010 .

[3] R. Baker. Membrane Technology and Applications , 1999 .

[4] Mika Mänttäri,et al. Critical flux in NF of high molar mass polysaccharides and effluents from the paper industry , 2000 .

[5] Robert Langer,et al. High-throughput membrane surface modification to control NOM fouling. , 2009, Environmental science & technology.

[6] M. Stoller. On the effect of flocculation as pretreatment process and particle size distribution for membrane fouling reduction , 2009 .

[7] Marco Stoller,et al. Optimization of membrane batch processes by means of the critical flux theory , 2006 .

[8] Robert W. Field,et al. Critical and sustainable fluxes: Theory, experiments and applications , 2006 .

[9] A. Chianese,et al. Influence of the adopted pretreatment process on the critical flux value of batch membrane processes , 2007 .

[10] A. D. Marshall,et al. Performance of crossflow microfiltration during constant transmembrane pressure and constant flux operations , 2002 .

[11] P. Aimar,et al. Slow colloidal aggregation and membrane fouling , 2010 .

[12] R. Field,et al. Critical flux concept for microfiltration fouling , 1995 .