Abstract: Micro porous cellulose acetate (CA) membranes were prepared by the supercritical CO2 phase inversion method using acetone and dimethyl formamide as solvents. The morphology of the membranes was characterized by scanning electron microscope (SEM) and the water flux of membranes was measured as well. The effect of affinity between solvent and CO2，CA concentration，CO2 pressure and temperature，holding pressure time and depressurization rate on the performance of the membrane was investigated. It was found that acetone was a suitable solvent for the preparation of the membrane with homogeneous structure. Moreover，the water flux of the membrane was reduced as the pore size decreased with increasing CA concentration. The water flux increased and reached a maximum value，then decreased with the increase of pressure as well as temperature. However，holding pressure time and depressurization rate had negligible influence on the water flux of the membrane. The membrane had a water flux as high as 30 L∙m-2∙min-1 when prepared with CA concentration of 10 %，15 MPa，45 ˚C，holding pressure time 45 min，and rapid depressurization rate.