Membrane processing for olive mill wastewater fractionation

Membrane processing for olive mill wastewater fractionation

The possibility of complete fractionation of olive mill wastewater (OMW) was investigated using membrane technology. Combinations of different membrane processes were used for the fractionation of OMW into by-products that may be further developed to achieve reduction of the expenses involved. Ultra...

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Bibliographic Details
Published in:Desalination Vol. 213; no. 1; pp. 218 - 229
Main Authors: Paraskeva, C.A., Papadakis, V.G., Tsarouchi, E., Kanellopoulou, D.G., Koutsoukos, P.G.
Format: Journal Article Conference Proceeding
Language:English
Published: Amsterdam Elsevier B.V 15-07-2007
Elsevier
Subjects:
Applied sciences
Biological and medical sciences
Chemical engineering
Decontamination. Miscellaneous
Exact sciences and technology
Food engineering
Food industries
Fundamental and applied biological sciences. Psychology
General aspects
General purification processes
Membrane processes
Membrane separation (reverse osmosis, dialysis...)
Nanofiltration
Olea
Olive mill wastewater
Pollution
Reverse osmosis
Soil and sediments pollution
Ultrafiltration
Wastewaters
Water and soil pollution
Water treatment and pollution
Water and soil pollution
Olive mill wastewater
Nanofiltration
Reverse osmosis
Ultrafiltration
Membrane processes
Irrigation
Reaction product
Solid particle
Soil pollution
Waste water
Membrane separation
Food industry
Chemical composition
Speciation
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Summary:The possibility of complete fractionation of olive mill wastewater (OMW) was investigated using membrane technology. Combinations of different membrane processes were used for the fractionation of OMW into by-products that may be further developed to achieve reduction of the expenses involved. Ultrafiltration (UF) in combination with nanofiltration (NF) and/or reverse osmosis (RO) were found to be very efficient for the treatment and fractionation OMW. An extended parametric study for the optimum fractionation yield of OMW involved variation of the operational system parameters including temperature, and the trans-membrane pressure. The final effluent obtained was a clean transparent with very low content of organic compounds and dissolved ionic salts. The chemical composition of the post-treatment effluent showed that it was suitable for disposal in aquatic receptors or for use for irrigation purposes. The ultrafiltration process resulted in the separation of high molecular weight constituents including suspended solid particles. Phenols present in the OMW were removed to an extent exceeding 95% of the initial value following the nanofiltration step. The concentrate obtained at this stage was very rich in phenols. Better efficiency of the OMW treatment was achieved applying RO after UF.
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ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2006.04.087