Phosphate Removal Efficiency and Life Cycle Assessment of Different Anode Materials in Electrocoagulation Treatment of Wastewater

Abstract: The excessive discharge of phosphorus-containing wastewater contributes to eutrophication, posing a serious threat to aquatic ecosystems. Therefore, methods such as electrocoagulation should be utilized to remove phosphorus from wastewater prior to discharging it into a water body. In this study, we aimed to determine the effectiveness of electrocoagulation in treating simulated phosphorus-containing wastewater under different parameters, including anode material (aluminum, iron, and magnesium), electrode dist… Show more

“…However, it will produce a large amount of chemical sludge, bringing secondary pollution [27]. EC has the advantages of high processing efficiency, flexibility and easy control, but the electrode material is easy to wear and tear, and needs to be replaced periodically, which increases the maintenance cost [28]. Therefore, there is an urgent need for a more economical, effective and environmentally friendly process technology for the resource treatment of calcium and magnesium ions in external drainage water [29].…”

Research on Carbon Dioxide-Assisted Electrocoagulation Technology for Treatment of Divalent Cations in Water

“…However, it will produce a large amount of chemical sludge, bringing secondary pollution [27]. EC has the advantages of high processing efficiency, flexibility and easy control, but the electrode material is easy to wear and tear, and needs to be replaced periodically, which increases the maintenance cost [28]. Therefore, there is an urgent need for a more economical, effective and environmentally friendly process technology for the resource treatment of calcium and magnesium ions in external drainage water [29].…”

Research on Carbon Dioxide-Assisted Electrocoagulation Technology for Treatment of Divalent Cations in Water