In this work, the characteristics and enhancement of pervaporation for the separation of various alcohols from hydrocarbon mixtures are demonstrated. Experiments were performed through a composite plate-and-frame type hydrophilic PVA (polyvinyl alcohol) membrane at a constant permeate vacuum pressure of 6.5 mmHg and at temperatures of 30, 45 and 60°C. The Wilson equation was used to describe the activity coefficients for the system. The analysis is presented in terms of the variations in permeation flux, permeability and selectivity. The results show that as the concentration of alcohols in the feed increases, the permeability, selectivity and total flux also increase. By increasing the temperature, the permeabilities increase while selectivity decreases. However, the experimental results show that at temperatures of 30 and 45°C a good degree of separation of alcohols from a hydrocarbon mixture is possible by the pervaporation technique using a PVA membrane with a selectivity of greater than 10.