T. Vasiljevic et P. Jelen, Temperature effect on behavior of minerals during ultrafiltration of skim milk and acid whey, MILCHWISSEN, 54(5), 1999, pp. 243-246
Pasteurized skim milk and untreated cottage cheese whey were ultrafiltered
on a bench-top ultrafiltration (UF) tubular metallic membrane (0.016 m(2),
molecular weight cut-off 20,000 Da) with an inorganic, porous carbon-type s
upport, at 5, 20, 35, and 50 degrees C (+/-1 degrees C), 400 kPa cross-memb
rane pressure, and a flow rate of 3x10(-3) m(3)/min. Analyses of minerals i
n skim milk, acid whey, skim milk and acid whey permeate were used to deter
mine their retention. Higher temperature gave greater flux, but caused sign
ificantly higher membrane fouling after 60 min. The retention of calcium an
d inorganic phosphorus was higher during UF of skim milk than acid whey. Th
e retention of inorganic phosphorus was inversely correlated with the tempe
rature and calcium retention during UF of skim milk. During UF of acid whey
, the retention of calcium and inorganic phosphorus was lower than that of
other minerals. The retention of calcium was independent of the temperature
changes during UF of acid whey, while the retention of phosphorus was sign
ificantly higher at lower temperatures.