摘要
This article aimed to investigate the variation of aluminum species and the effects of coagulant type and water quality on aluminum speciation in drinking water. Statistical analysis showed that the concentration of total aluminum (AlT) of drinking water in Xi' an ranged from 0.051 to 0.417 mg/L and the concentration of A1T in about 24.7% studied samples was higher than the currently recommended value (0.2 mg/L). The areas fed by surface water plants had a larger portion (39.4%) of samples over the recommended value. In drinking water treated by alum coagulant, the average concentration of monomeric aluminum (Ala) was higher than that in water treated by poly aluminum chlorine (PACl) and poly aluminum ferric chloride (PAFC). The average concentrations of polynuclear aluminum (Alb) and colloidal/suspended aluminum (Ale) in the drinking water treated by alum were lower than those in water treated by PACl and PAFC. There was a notable decrease in AlT along with the delivery pipeline away from the plants, with an average decline of about 36 μg/(L-km). Besides coagulant type, water quality also could affect aluminum speciation. In drinking water without orthophosphate, the concentrations of Ala and AlT were positively correlated with pH; while, in drinking water with orthophospbate, the concentrations of Ala and AlT were negatively correlated with pH. The addition of orthophosphate salts in the drinking water treatment process would be an effective method for aluminum control in pH range 6.5-8.2.
This article aimed to investigate the variation of aluminum species and the effects of coagulant type and water quality on aluminum speciation in drinking water. Statistical analysis showed that the concentration of total aluminum (AlT) of drinking water in Xi' an ranged from 0.051 to 0.417 mg/L and the concentration of A1T in about 24.7% studied samples was higher than the currently recommended value (0.2 mg/L). The areas fed by surface water plants had a larger portion (39.4%) of samples over the recommended value. In drinking water treated by alum coagulant, the average concentration of monomeric aluminum (Ala) was higher than that in water treated by poly aluminum chlorine (PACl) and poly aluminum ferric chloride (PAFC). The average concentrations of polynuclear aluminum (Alb) and colloidal/suspended aluminum (Ale) in the drinking water treated by alum were lower than those in water treated by PACl and PAFC. There was a notable decrease in AlT along with the delivery pipeline away from the plants, with an average decline of about 36 μg/(L-km). Besides coagulant type, water quality also could affect aluminum speciation. In drinking water without orthophosphate, the concentrations of Ala and AlT were positively correlated with pH; while, in drinking water with orthophospbate, the concentrations of Ala and AlT were negatively correlated with pH. The addition of orthophosphate salts in the drinking water treatment process would be an effective method for aluminum control in pH range 6.5-8.2.
基金
supported by the National Natural Science Foundation of China (No.50838005)
the Changjiang Scholars and Innovative Research Team in University (No.IRT0853)
the Nature Science Fundation of Shaanxi(No.2009JQ7001)
