4.7 Article

Electrocoagulation treatment of furniture industry wastewater

Journal

CHEMOSPHERE
Volume 328, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2023.138500

Keywords

Alternating pulsed current; Electrocoagulation; Furniture industry; Iron quantification; Wastewater treatment

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Electrocoagulation was studied as a method for treating furniture industry wastewater containing polyvinyl acetate (PVAc). The study evaluated the effects of inter-electrode distance, current density, and mode on treatment performance. The results showed that low inter-electrode distance and Alternating Pulsed Current (APC) mode resulted in reduced energy consumption and better treatment performance. Despite the promising results, the treatment procedures were insufficient to meet the legal requirements for water discharge.
Electrocoagulation was investigated as a method for treating wastewater containing polyvinyl acetate (PVAc) from the furniture industry. The study evaluated the evolution of iron concentration and passivation during the treatment process. Laboratory-scale experiments were conducted to evaluate the effects of inter-electrode distance (d), current density, and mode on treatment performance. Three values of d (0.3, 0.6, and 0.9 cm) were studied and found to have no significant effect on performance. However, lower d values resulted in reduced energy consumption due to a decrease in applied voltage. Three values of current density (132, 158, and 197 A m- 2) were studied under two current modes, Direct Current (DC) and Alternating Pulsed Current (APC). The best treatment performance for DC occurred under 158 A m- 2 (the treated wastewater was characterized by pH = 4.59 +/- 0.02, conductivity = 996 +/- 21 mu S cm- 1, COD = 1940 +/- 55 mgO2 L-1, TSS = 105 +/- 14 mg L-1, and Fe = 50.39 +/- 1.87 mgFe L-1). For APC, the best performance was achieved under 197 A m- 2 (the treated wastewater was characterized by pH = 6.33 +/- 0.06, conductivity = 988 +/- 17 mu S cm- 1, COD = 1942 +/- 312 mgO2 L-1, TSS = 199 +/- 55 mg L-1, and Fe = 44.68 +/- 4.60 mgFe L-1). Despite the promising results, treatment performance was insufficient to meet the legal requirements for water discharge. APC was found to be a more economically viable approach, as it reduced anode wear, electrode passivation, and energy consumption. The quantity of iron released increased with d, and the effect of current density on iron concentration was found to be non-linear. However, applying APC reduced the iron content for all tested current densities. The tests showed that EC was effective in removing chemical oxygen demand (COD) and total suspended solids (TSS), achieving removal efficiencies above 92% and 99%, respectively. However, the studied treatment procedures were insufficient to meet the EU legal requirements for water discharge. Therefore, the obtained wastewater should undergo a posttreatment process.

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