The purpose of this study is to prepare the defect free skin layer of hollow fiber membrane via the wet phase inversion process. The effect of delay demixing rate of casting solution on the skin layer structure was investigated by using the light transmittance measurements. The dense skin layer hollow fiber membranes were applied for dehydration of ethanol solution by pervaporation. The effects of carbon number of the alcohols as the coagulant in phase inversion process on the light transmittance were studied. It was found that the polarity difference between the alcohols strongly affected the demixing rate of the casting solution in water bath. It is indicated that low polarity coagulant n-butanol showed the significantly delay demixing effect in the wet phase inversion process. The hollow fiber membrane showed the largely enhancement on the separation performance in pervaporation. On the other case, the sulfonated polysulfone hollow fibers were prepared following the above procedure. The poor performance was found due to the less demixing time in coagulant bath. The mixed coagulant with n-hexane and n-butanol were used as the coagulant in membrane preparation. It was found that the polarity change in n-hexane additive induced the delay demixing behavior in sulfonated piolysulfone solution. The skin layer structure became denser with declining the polarity coagulant in membrane formation. It was concluded that the equivalence n-hexane and n-butanol as the core liquid in hollow fiber formation obtained the best skin layer structure.