The treatment of deep well water of Trisakti University by coagulation and flocculation using baffle channel system has been conducted. The detention time of hydrolic were varied. The coagulant dose was varied as 50, 100, 150, 200, 300, 350, 400, 450 and 500 ppm. Water of well sampel was added by coagulant with rotation velocity 200 rpm for 1 minute. The optimal coagulant dose was determined by measuring turbidity, colour, total suspended solids and organic compound. The result showed that the organic compound and colour of deep well water of Trisakti University could be reduced by coagulation and flocculation process by hydrolyc system. The optimal dose of the coagulant was 250 ppm. The removal efficiency of colour and organic compound using optimal dose for continuous flow reactor reached after water flow passed the reactor for 3 - 5 times detention time in the reactor. The optimal gradient velocity (G) was 30 - 35 sec^-1 and collision energy (GT) was 65.000 - 79.000 to get optimal flocculation. With this condition, the removal efficiency of turbidity, colour and organic was more than 90%.

[1] Tatsi, A.A., Zoubaulis, A.J., Matis K.A., and Samaras, P., 2003, Chemosphere, 53, 737-744.

[2] Tapas nandy, Sunita Shastry, Pathe, P.P., and Kaul, S.N., 2003, Water, Air & Soil Pollution, 148, 5-30.

[3] Ozkan, 2003, Mineral engineering, 16, 1, 59 - 66.

[4] Benefield, L. D., Judkins, J.F., and Barron, L., 1982, Process Chemistry for Water and Waste Water Treatment, Prentice Hall, Inc. New Jersey.

[5] Dyamond, B., 1987, Flocculation Theory and Application, West Yorkshire, London.

[6] Hammer, M.J, 1992, Water and Waste Water Technology, John Wiley and Sons Inc, London.

[7] Montgomery, J.M., 1985, Water Treatment Principles and Design, John Wiley and Sons Inc, London.

[8] Qasim, Syed R. 1985, Water Treatment Plants, Planning, Design and Operation, CBS College Publising, London.