The major problem in membrane process is fouling. Many studies reported that the main reason which caused fouling is NOMs or NOMs combining with particles. In this study, three various mixed solutions (5 mg /L HA, 5 mg /L HA+5 mg/L Kaolin, 5 mg/L HA+50 mg/L Kaolin) were used to simulate surface water. The effect of different ratio of humic acid (HA) to kaolin on electrically enhanced membrane process under various pressures and electric field strength were investigated. The results of this study showed that the electrically enhanced membrane process could improve the flux and rejection of HA when the solution contained turbidity (kaolin) and HA. Moreover, when electric field was not applied, 5 mg/L HA+50 mg/L Kaolin solution caused the most flux decline. The flux decline was getting worse and the HA rejection (DOC) was getting better with increase of pressure. The DOC rejection for 5 mg/L HA+50 mg/L Kaolin solution is better than that for the other two solution. Through the calculation of resistance for membrane, 5 mg/L HA+50 mg/L Kaolin solution caused the highest total fouling resistances (Rf), but most of the fouling resistances could be classified as reversible resistance in this case. When applied electric field strength was below critical electric field strength (Ec), the flux and HA rejection (DOC) increased with the augmentation of the electric field. However, further improvement could not be obtained when electric field strength exceeded Ec. By analyzing the fouling resistances, the total fouling resistences for 5 mg/L HA+50 mg/L Kaolin solution (69 kPa) reduced from 82% to 37% when the electric field strength increased from 0 to 73.32 V/cm. Under the electric field application, SUVA value decreased obviously, it showed that electrically enhanced membrane process could effectively improve the rejection of DBP precursors.