Dong-Jang Chang scite author profile

ABSTRACT:Utilizing an interfacial polymerization technique for the preparation of a polymeric composite nanofiltration membrane, both high permeation flux of water and high salt rejection can be achieved. Synthesis conditions, such as concentration of monomer, reaction time, and swelling agent, significantly affected the separation performance of composite membranes. The composite polyamide membrane had a permeation rate of ϳ2-5 gallon/ft 2 /day (gfd) and a salt rejection rate of ϳ94 -99% when 2000 ppm aqueous salt solution was fed at 200 psi and 25°C. Also, a higher performance nanofiltration membrane could be prepared by suitably swelling the support matrix in the period of polymerization. The results of various feed concentrations showed that permeate flux decreased with increasing salt concentration in the feed solution. This result may be due to concentration polarization on the surface of polyamide membranes. The separation performance of polyamide membranes showed an almost independent relationship with operation pressure until it was up to 200 psi.

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Pervaporation separation of water/ethanol mixture by sulfonated polysulfone membrane

Chen

Lin

et al. 2001

Journal of Membrane Science

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Steady State permeat flux for particle cross-flow filtration

Hwang

Chang

Chen

1996

The Chemical Engineering Journal and the Biochemical Engineerin

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Wet air oxidation of a reactive dye solution using CoAlPO4-5 and CeO2 catalysts

Chang

Chen

et al. 2003

Chemosphere

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Steady-state permeate flux of cross-flow microfiltration

Chang

Hsu

Hwang

1995

Journal of Membrane Science

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Dong-Jang Chang

Preparation and separation properties of polyamide nanofiltration membrane

Pervaporation separation of water/ethanol mixture by sulfonated polysulfone membrane

Steady State permeat flux for particle cross-flow filtration

Wet air oxidation of a reactive dye solution using CoAlPO4-5 and CeO2 catalysts

Steady-state permeate flux of cross-flow microfiltration

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