Studies were conducted to develop correlation between nanofiltration (NF) m
embrane fouling, feed water quality, and membrane characteristics. The wate
r quality of the three seasonal NF feed samples was characterized by UV, DO
G, HPLC-OUVA-DOC, XAD, IC and ICP. Surface charge, specific flux variation
at different pH and ionic strengths, molecule weight cut-off (MWCO), and fu
nctional groups of the NF 200 membrane surface were determined. The extent
of fouling was significantly dependent on water quality, membrane propertie
s, and operational conditions. Higher flux decline was observed at high DOG
, high divalent cations, high alkalinity and low temperature. Temperature s
trongly affected the specific flux and natural organic matter (NOM) rejecti
on. Inorganic salt precipitation was proven by FTIR, X-ray diffraction, X-r
ay fluorescence and SEM. NOM fouling was observed during long run pilot tes
ts at relatively high temperature while scale fouling was observed at both
high and low temperatures. Due to the decrease in solubility of CaCO3(s) an
d CaSO4(s) at high temperature, homogeneous crystallization occurred that l
ed to less nux decline. At low temperature, in spite of the increased solub
ility, heterogeneous crystallization with NOM absorption was observed. This
is due to an increase in pH and formation of nucleus components induced by
a temperature decrease. Heterogeneous crystallization caused more signific
ant flux decline than homogeneous crystallization.