Abstract
Background: Highly-concentrated phosphate and nitrate anions from sugarcane wastewater are often discharged into public waters without standardized treatments. This study assessed the effects of electrical coagulation, initial pH and reaction time in the removal of phosphate and nitrate pollutants. Methods: We used aluminum electrodes to remove the pollutants at Hakhim Farabi Agricultural and Industrial complex, Khuzestan Province, Iran. A septic tank was used for collecting water samples followed by measuring the pH, and the concentrations of phosphate and nitrate in the samples. The pH was set at 5, 7, 9 or 11. Six aluminum electrodes were placed perpendicular to the water flow and were connected to power in a single-polar method. They were used to assess the effects of pH changes, electrical power at 10 and 30 volts and the water retention time at 15, 30, 45 or 60 min. on the efficiency of the pollutants’ removal. Results: The results indicated that under equal retention time and varying pH values, as voltage increased from 10 to 30, the phosphate and nitrate removal increased progressively. It was further demonstrated that the maximum phosphate removal efficiency was achieved at pH7, while it declined at higher pH levels. The highest possible nitrate removal efficiency was achieved under alkaline pH levels. The overall results showed that at every pH and voltage, the percentage of phosphate and nitrate removal increased over time. Conclusion: This study demonstrated that electro-coagulation process is an appropriate and efficient method to remove phosphate and nitrate pollutants from sugarcane wastewaters.
Highlights
T he growing global population, improved hygiene and health standards, and the industrial and economical development across many nations call for renewable water resources
The results indicated that at identical reaction time of electrolysis, increasing the voltage from 10V to 30V increased the efficiency of phosphate and nitrate removal
We found that the highest removal efficiency was achieved at alkaline pH for nitrogen and neutral pH for phosphorus, at 30 volts
Summary
T he growing global population, improved hygiene and health standards, and the industrial and economical development across many nations call for renewable water resources. As the demands for water resources by agricultural, industrial, and domestic sectors increase, there will be a corresponding rise in the volume of wastewaters, the major sources of pollution in the environment [1, 2]. The sugarcane wastewater effluents from the plants in Khuzestan contain high levels of phosphate and nitrate These anions are among the pollutants, the entry of which into the water bodies causes harmful effects on the environment [3, 9, 10]. This renders the pre-treatment and removal of phosphate and nitrate from wastewater bodies an inevitable and crucial issue. This study assessed the effects of electrical coagulation, initial pH and reaction time in the removal of phosphate and nitrate pollutants
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