Abstract
Pasteurized whole milk was fractionated with a pilot-scale, plate and frame, ultrafiltration system to study membrane fouling and flux decline. Concentration factor was set at approximately 1.4× to simulate the first stage of a multistage UF system. Proteinaceous membrane foulant was characterized by SDS-PAGE. Distribution of proteins in the foulant was very different from distribution of proteins in milk. Whey proteins, α-lactalbumin and β-lactoglobulin, accounted for 95% of the proteinaceous membrane foulants. Very little casein was identified as membrane foulant.The approximate amount of protein in the membrane foulant was estimated to be .6g/m2 of membrane area. Permeate flux studies indicated that flux decline is severe in the early stages of milk ultrafiltration and is associated with irreversible adsorption of protein on the membrane surface. A threefold difference between the water flux of clean membranes and fouled membranes was attributed to the adsorbed foulant. Identification and characterization of membrane foulants and the mechanism of their interaction with membrane surfaces should lead to the design of more efficient ultrafiltration systems for the dairy industry.
Published Version
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