The zeta potential of coagulated particles is commonly used as an index to evaluate the optimal dosage of coagulation in water treatment. However, the qualities of raw water taken from surface turbid water by water treatment plant (WTP) fluctuates immensely, resulting in variation of optimal zeta potential zone for coagulation of different natural turbid water. Therefore, there are still many debates on determination of the optimal dosage through the indication of zeta potential. The goal of this study is to investigate the relationship between optimal dosage and zeta potential of coagulated particles for coagulation of natural turbid water. Various natural turbid water samples were collected from HsinChu WTP, and then each coagulation test was conducted by PACl coagulant through jar test to determine the optimal coagulant dosage and corresponding zeta potential by a zeta meter, in which the residual turbidity of supernatant after sedimentation was measured. Various parameters of raw water quality were further measured independently to study their effect on determination of the optimal dosage. The results showed that turbidity and alkalinity of raw water governs the optimal dosage and corresponding zeta potential. The optimal dosage almost occurred at neutral pH and increases with increase in turbidity of raw water, in which the optimal zeta potential for turbidity removal was rather positive. Furthermore, the relationship between alkalinity of raw water and the optimal dosage is strongly affected by turbidity of raw water. The optimal dosage increases with increase in alkalinity for coagulation of low turbidity water (0~50 NTU). By contrast, the optimal dosage decreases with increasing alkalinity for coagulation of high turbidity water (300~2700 NTU).