The dose of coagulant which gives the best floc is the optimum dose … It was observed that the optimum dose for alum obtained through the traditional method was 12 mg/l, while the value for polymer was set constant at 0.020 mg/l. DETERMINATION OF THE OPTIMUM COAGULANT DOSE (ALUMINIUM SULPHATE) IN THE WATER TREATMENT PLANT OF ATHENS IN GALATSI FACILITIES DURING THE SUMMER PERIOD It means that important requirement arises to automate the system with optimum coagulant dosage. 4 indicates re- The best performance of alum in removing turbidity from water was obtained at pH 7 following by pH 6. The optimum alum dosage was higher (20 mg/L) for initial turbidity of 1000 NTU which was the lowest required dosage obtained the highest turbidity removal. 1. 1. To determine the optimal alum dose needed for an influent water turbidity of 100 NTU, we set up a special program in Process Controller. Fig. Through RSM optimization, the optimum dose for alum was 7 mg/l and for polymer was 0.004 mg/l. 3) Determination of optimal coagulant dosage . Principle : The two basic terms which can exactly explain the happenings of this experiment are "Coagulation" and "Flocculation". Coagulation: It is the process of addition of a chemical to de-stabilize a… appears that a dose of 100 ppm alum is required to achieve both turbidity reduction and the lowest dissolved Al concentrations, and maximum phosphorus removal. The coagulation efficiency of alum dose. dosage that caused the highest percentage of turbidity removal, in other words the concentration of alum that showed the lowest level of turbidity in a sample of each of the 16 experiments. For each level of turbidity and algae, a direct relationship was obtained between the alum dose and the difference values of the electrical charges in the raw and treated water under the same conditions. than 25 mg/L for arsenic removal. Aim: To determine the optimum dosage of coagulant to remove small or charged particles present inside water by using "Alum" as coagulant. Having defined an initial optimal dose, we proceeded to The mechanical wheel can be used to solve a chemical dosage problem by plugging in the given information and then multiplying or dividing as indicated to determine the solution. Optimum dose of alum for removal arsenic is . Alum dosage must be tailored to meet your specific wastewater characteristics and discharge requirements. The research is aimed to propose an alternative to the jar test allowing for an on line determination of optimal coagulant dosage from raw water characteristics and design a system for feeding Alum and Lime automatically with a monitoring display. We varied the alum dose added to the influent stream from 0 mg/L to 45 mg/L in increments of 5 mg/L for an influent turbidity of 50, 75, 100, and 150 NTU. Optimum pH for the coagulation operation obtained through traditional methods and RSM was 7.6. Feed Rate (lbs/day) = dosage (parts per million) × Flow Rate (million gallons per day) × 8.34 lbs/gal Below is the pounds formula expressed in a mechanical wheel. It is noteworthy that the pH of the sample from station 10 (farthest into the east bay) dropped almost two pH units with a 100 ppm alum dose. How is an optimal dosage determined when using alum for phosphorus removal for the final effluent in a wastewater MBR? To conduct jar test on a natural surface water in order to estimate an optimum dosage of aluminum sulfate or ferric sulfate for the removal of suspended matter , To observe the rate of floc formation and sedimentation. The optimum aluminum sulfate dosage was 2 g/L. 25 mg/L because 30 mg/L of alum dose was worse . The optimum alum dose has been estimated electrically based on the difference between the electrical charges in the treated and the raw water under the same conditions. Thetreatment reduced the total solids of the wastewater by 89.6%, and produced a supernatant with a pH of4.15 and an optical density of 0.194 nm. It all depends on the wastewater characteristics, the mixing & dispersion conditions, the phosphorus concentration in your raw water and the expected …