Abstract
•This study examines the effects of parameters on the electrocoagulation process.•Phosphorous concentrations were reduced by 99% in under 1h by electrocoagulation.•Removal efficiency was directly proportional to the conductivity and power supplied.•Future research should investigate utilizing electrocoagulation directly in the WWTP.
Water with excessive nutrients are continuously released into water bodies, the resulting eutrophication causes public health, environmental, and economic problems. Phosphorus (P) impairment of fresh surface waters is a major concern in the USA and worldwide. The aim of this study is to use a bench scale P removal system that utilizes electrocoagulation (EC) to address this water quality problem. This study examined the effects of treatment parameters (initial pH, initial conductivity, power input, and initial P concentration) on the ability of the EC process to remove P in solutions with initial P concentrations less than 2mg/L. It also investigated the ability of EC to reduce concentrations of P in surface water and treated wastewater. P concentrations in phosphate solutions, surface water, and wastewater effluent were reduced by 99% in under 60min. The removal efficiency was demonstrated to be directly proportional to the conductivity and power supplied.
