Influence of twisted tape turbulence promoter on fouling reduction in microfiltration of milk proteins

Membrane filtration has become one of the major technologies in the food industry. It is widely applied in the dairy industry, and it is mostly used for the concentration and fractionation of milk proteins and for the whey processing. Of all pressure driven membrane processes, ultrafiltration is the...

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Bibliographic Details
Published inHemijska industrija Vol. 65; no. 3; pp. 233 - 239
Main Authors Popovic, Svetlana, Jovicevic, Dragica, Djuric, Mirjana, Milanovic, Spasenija, Tekic, Miodrag
Format Journal Article
LanguageSerbian
English
Published Association of Chemical Engineers of Serbia 2011
Subjects
FILTRACIAN
FILTRACIAN DE MEMBRANA
FILTRATION
FILTRATION AA MEMBRANES
http://www.fao.org/aos/agrovoc#c_27575
http://www.fao.org/aos/agrovoc#c_28457
http://www.fao.org/aos/agrovoc#c_2900
http://www.fao.org/aos/agrovoc#c_36993
http://www.fao.org/aos/agrovoc#c_4826
http://www.fao.org/aos/agrovoc#c_4831
LAIT
LECHE
MEMBRANA
MEMBRANE
MEMBRANE FILTRATION
membrane fouling
MEMBRANES
MICROFILTRACIAN
MICROFILTRATION
MILK
MILK PROTEIN
milk proteins
PROTAINE DU LAIT
PROTEANAS DE LA LECHE
turbulence promoters
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Summary:Membrane filtration has become one of the major technologies in the food industry. It is widely applied in the dairy industry, and it is mostly used for the concentration and fractionation of milk proteins and for the whey processing. Of all pressure driven membrane processes, ultrafiltration is the most widely used. The major disadvantage of pressure driven membrane processes is severe fouling of the membrane during filtration particularly when fluids containing proteins are processed. Fouling with proteins is a complex phenomenon because it occurs at the membrane surface as well as in the pores of the membrane, and depends on the operating conditions and on the interactions of proteins and membrane material. In order to reduce fouling of the membrane different techniques have been developed, and one of them relies on the changing of the hydrodynamic conditions in the membrane or module. In this study, the influence of twisted tape turbulence promoters on the fouling reduction in cross-flow microfiltration of skim milk was investigated. Twisted tapes with tree characteristic ratios of helix element length to the tape diameter (aspect ratio) were studied. It was shown that twisted tapes with different aspect ratios reduce fouling of membrane by a factor of three or more. The presence of twisted tape induces changes in the flow patterns from straight to helicoidally thus producing turbulence flow at the lower cross-flow rates. Turbulence intensification prevents accumulation of proteins at membrane surface enabling reduction in reversible fouling what results in the reduction of overall membrane fouling. The best performance was achieved using a twisted tape with the lowest aspect ratio of 1.0. This promoter reduces fouling seven times at low transmembrane pressure and low cross-flow velocity. The twisted tape with aspect ratio 1.0 induces the most intensive turbulence, the longest helicoidal flow path, and appearance of vortices near the membrane surfaces, so the scouring of proteins from the membrane surface is the most intensive in that case.
Bibliography:COBISS.SR-ID 44055
Q02
ISSN:0367-598X
2217-7426
DOI:10.2298/HEMIND110125012P