Free Water turbid with high quality of potable water supply is the most important environmental issue. Surface water is usually rich in turbidity. Turbidity imparts a great problem in water treatment. In this present work, the performance and effectiveness of four different inorganic coagulant salts including alum, copper sulphate, ferric sulphate, and ferrous sulfate in water turbidity removal were investigated. No coagulant aids are used in the current study. Desired turbid samples with 100NTU (turbidity of surface water does not exceed 100NTU in no rain condition) are prepared in laboratory, mixing kaolin powder with tap water. The optimum conditions for maximum suspended solid removal are examined. A set of jar test experiments are conducted to find the optimum pH and coagulant dosage to reach appropriate operational conditions. The samples in jar apparatus underwent rapid mixing with speed of 100rpm for 1min. in order to attain uniform concentration of coagulants in water. Slow mixing with speed of 25rpm for 25 min. is used to give the colloidal particles favor to approach from each other to make flocs, and then allow the samples in the beakers to settle for 25 minutes to precipitate the agglomerates by gravity and sludge formation at the bottom of beakers. Results demonstrated that turbidity removal is dependent on pH and coagulant dosage. The highest turbidity removal efficiency was within % 97.9 for Alum when pH value is 6.5, %90.8 for copper sulphate when pH is 7, % 87 for ferric sulphate when pH is 4, and %72 for ferrous sulphate when pH is 4. Results indicated that alum has the best potential ability of water turbidity removal compared with other used coagulants.