Effect of the preparation conditions on the morphology and performance of poly(imide) hollow fiber membranes

Abstract: Poly(imide) (PI) hollow fiber membranes were prepared by using classical phase inversion process. Effects of different external coagulation bath temperatures (ECBT) and various bore flow rates (BFR) on the morphology and separation performance of the membranes were studied. Cross‐section, inner and outer structures were characterized by using scanning electron microscope and atomic force microscopy (AFM). Mean pore size, pore size distribution, and mean roughness of the PI hollow fibers surfaces were estimated… Show more

“…When applied separately, increases in and MW PVP appear to be qualitatively similar and insufficient to obtain a fully sponge-like structure. It is known that an increase in leads to finger-like or macrovoid formation due to increased precipitation rate [28,36] . However, when both MW PVP and are increased, a sponge-like structure forms pointing to the additive nature of these two effects ( Figure 1).…”

Combined effects of hollow fiber fabrication conditions and casting mixture composition on the properties of polysulfone ultrafiltration membranes

“…When applied separately, increases in and MW PVP appear to be qualitatively similar and insufficient to obtain a fully sponge-like structure. It is known that an increase in leads to finger-like or macrovoid formation due to increased precipitation rate [28,36] . However, when both MW PVP and are increased, a sponge-like structure forms pointing to the additive nature of these two effects ( Figure 1).…”

Combined effects of hollow fiber fabrication conditions and casting mixture composition on the properties of polysulfone ultrafiltration membranes

Poly(phenyl sulfone) hollow fiber forward osmosis membrane for saline water desalination

Estimation of nanofiltration membrane transport parameters for cobalt ions removal from aqueous solutions