Effectiveness of three coagulants of Polyaluminum Chloride, Aluminum Sulfate and Ferric Chloride in turbidity removal from drinking water

authors:

avatar Edris Bazrafshan 1 , avatar Ferdos Kord mostafapour , * , avatar hossein kamani 2

Research Center for Health Promotion and Social Development, Zahedan University of Medical Science and Health Services, Zahedan, Iran
* Research Center for Health Promotion and Social Development, Zahedan University of Medical Science and Health Services, Zahedan, Iran

How To Cite Bazrafshan E, Kord mostafapour F, kamani H. Effectiveness of three coagulants of Polyaluminum Chloride, Aluminum Sulfate and Ferric Chloride in turbidity removal from drinking water. Zahedan J Res Med Sci. 2008;10(1):e92288. 

Abstract

Background: Since Coagulation and flocculation are essential processes for turbidity removal from drinking water, many studies have been conducted on different coagulant. Materials and Methods: The present study - a pilot scale experiment- was conducted in the laboratory of water and wastewater chemistry of Zahedan public health school in 2007 to compare the efficiency of PAC, Ferric chloride and aluminum sulfate as coagulants. To do so, lab experiments were performed using distilled water containing synthetic Caoline. Eight turbidity levels (10-80 NTU), five pH levels (5.5, 6.0, 6.5, 7.0 and 7.5) and five coagulants doses( 5, 10, 20, 30 and 40 mg/l) were used for the jar test. Rapid mixing for all experiments was 380 rpm for one minute and slow mixing was 30 rpm for 20 minutes. Finally, at the end of every experiment, residual turbidity was measured by turbidity meter; in addition, removal efficiency for various conditions was determined by covariance and regression analysis. Results: The results showed that an increase of aluminum sulfate dose up to 40 mg/l can increase removal efficiency to 99.9%. The highest removal efficiency for ferric chloride occurred at feed dose of 20 mg/l and primary turbidity of 10 NTU, while for PAC the highest removal efficiency (99%) occurred at 40 mg/l. Effect of pH in turbidity removal for all experiments was similar. Discussion: Finally, it can be concluded that the best coagulant for turbidity removal (pH=5.5-7.5) is aluminum sulfate, because as the coagulant dose rises up the removal efficiency increases significantly. Efficiency removal, also, depends on the initial turbidity.

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