Abstract
Wastewater containing imidacloprid (IMI), a new and widely used insecticide, can harm human health and aquatic organisms. To remove IMI, this study applied a fluidized-bed Fenton process due to its low capital cost. The degradation of IMI was investigated in a bench-scale reactor with synthetic wastewater. The studied conditions included pH 2–5, 1.0–10.0 mM Fe2+, 1.0–15.0 mM H2O2, 1.0 mM IMI, 100–400% bed expansion, 100 g of SiO2 and at 25 °C. Under the conditions of 3 mM Fe2+, 5 mM H2O2, 400% bed expansion, and pH of 3.0, degradation efficiencies of 97%, 41%, and 12% for IMI, COD, and TOC, respectively, were obtained within 45 min of reaction period while total iron removal reached 10%. Increasing bed expansion up to 400% did not have a significant impact on IMI degradation; however, it slightly deteriorated the total iron removal performance due to a scouring effect. At 100% bed expansion, total iron removal increased to 22%. The apparent rate law for IMI degradation by the fluidized-bed Fenton reactor under the studied conditions can be expressed as follows:d[IMI]dt(mM min-1) =-0.2218H2O20.1182Fe2+0.3717
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