Electrocoagulation Process Efficiency for Removing Effluent Pollution Caused by Drilling of Oil Rigs

Abstract: Background: Electrocoagulation (EC) is a safe method for removing environmental pollutants without the need for additional chemical materials. This study investigates the performance of EC in removing chemical oxygen demand (COD), total organic carbon (TOC), total suspended solids (TSS), and turbidity from drilling waste generated by oil rigs. Methods: An experimental study was performed on a pilot scale in an EC reactor provided from a cylindrical glass cell (height: 30 cm and inner diameter: 5 cm), a pair of… Show more

“…Due to several key attributes, such as its eco-friendliness and simplicity, the availability of various reactor types, diverse electrode materials, pollutant removal, and the generation of natural compounds, robust system durability, high energy efficiency, minimal maintenance costs, reduced labor requirements, and the avoidance of chemical additives, electrocoagulation (EC) emerges as an effective method for treating dye-laden wastewater. 13,14 EC, a technique that has been available for over a century, has traditionally relied on empirical knowledge for reactor design, with limited attention to its underlying mechanisms. 15 Other challenges are associated with electrical operational costs related to energy consumption and electrode material usage.…”

Modeling Strategies Based on Multiple Neural Network Systems Applied for a Monopolar and Bipolar Electrocoagulation

“…Due to several key attributes, such as its eco-friendliness and simplicity, the availability of various reactor types, diverse electrode materials, pollutant removal, and the generation of natural compounds, robust system durability, high energy efficiency, minimal maintenance costs, reduced labor requirements, and the avoidance of chemical additives, electrocoagulation (EC) emerges as an effective method for treating dye-laden wastewater. 13,14 EC, a technique that has been available for over a century, has traditionally relied on empirical knowledge for reactor design, with limited attention to its underlying mechanisms. 15 Other challenges are associated with electrical operational costs related to energy consumption and electrode material usage.…”

Modeling Strategies Based on Multiple Neural Network Systems Applied for a Monopolar and Bipolar Electrocoagulation