This study investigates the application of soybean peroxidase (SBP), an enzyme extracted from a soybean processing byproduct, for the decolourization and oxidative treatment of three industrial azo dyes: Acid Orange 7 (AO7), Acid Orange 20 (AO20), and Reactive Black 5 (RB5), each at a concentration of 50 µM. These dyes are widely used in textile, paper, and leather industries and persist in wastewater. Optimization experiments were conducted at room temperature (approximately 22 °C) to examine the effects of pH, SBP activity, and hydrogen peroxide (H2O2) concentration. Optimal degradation conditions were identified as: pH 3.5, 0.075 U/mL SBP, and 0.0375 mM H2O2 for RB5; pH 3.0, 0.5 U/mL SBP, and 0.0375 mM H2O for AO7; and pH 3.0, 0.0025 U/mL SBP (200-fold less than for the isomeric AO7) and 0.0625 mM H2O2 for AO20. Under these conditions, dye conversion was very rapid, reaching >97% decolouration in 30 s. The initial first-order rate constants and half-lives were ≥10.7 min−1 and ≤0.065 min (AO7), ≥7.3 min−1 and ≤0.095 min (AO20), and ≥8.5 min−1 and ≤0.081 min (RB5). When normalized to enzyme activity, AO7 showed the highest catalytic efficiency. These findings support the use of SBP as a low-cost, eco-friendly, and effective biocatalyst for the rapid treatment of dye-containing industrial wastewater.
Oyelere et al. (Sat,) studied this question.