Abstract
Surface modification of poly(vinylidene)fluoride flat and hollow fiber membranes was performed via thermal cross-linking of acrylic acid. Two-stage cross-linking method was developed which enabled the interfacial reaction for effective cross-linked layer formation at surface. Hydrophilization of membranes at surface as well as at the inside of the pore was conducted by suction mode for solution application. Scanning electronic microscopy (SEM) images proved the formation of hydrophilic cross-linked layer to improve the performances of the membrane and antifouling characteristics. Modification of the membranes enhanced the stability of the membrane, and the chemical resistances were much improved. Mini pilot plant test proved the stability of the modified membranes in terms of flux and trans-membrane pressure (TMP) build up.
Acknowledgment
This research was supported by a programmes of Development of Components and Parts and Regional Innovation Center from Ministry of Knowledge and Economy of Korea.
Notes
7th Aseanian Membrane Society Conference (AMS7), 4–7 July 2012, Busan, Korea