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Nurlan, Nurbek; Akmanova, Ainash; Hamid, Shanawar; Lee, Woojin
Chemosphere, March 2022, 2022-Mar, 2022-03-00, 20220301, Letnik: 290Journal Article
The presence of various oxyanions in the groundwater could be the main challenge for the successive application of Cu–Pd-hematite bimetallic catalyst to aqueous NO3− reduction due to the inhibition of its catalytic reactivity and alteration of product selectivity. The batch experiments showed that the reduction kinetics of NO3− was strongly suppressed by ClO4−, PO43−, BrO3− and SO32− at low concentrations (>5 mg/L) and HCO3−, CO32−, SO42− and Cl− at high concentrations (20–500 mg/L). The presence of anions significantly changing the end-product selectivities influenced high N2 selectivity. The selectivity toward N2 increased from 55% to 60%, 60%, and 70% as the concentrations of PO43−, SO32−, and SO42− increased, respectively. It decreased from 55% to 35% in the presence of HCO3− and CO32− in their concentration range of 0–500 mg/L. The production of NO2− was generally not detected, while the formation of NH4+ was observed as the second by-product. It was found that the presence of oxyanions in the NO3− reduction influenced the reactivity and selectivity of bimetallic catalysts by i) competing for active sites (PO43−, SO32−, and BrO3− cases) due to their similar structure, ii) blockage of the promoter and/or noble metal (HCO3−, CO32−, SO42−, Cl− and ClO4− cases), and iii) interaction with the support surface (PO43− case). The results can provide a new insight for the successful application of catalytic NO3− reduction technology with high N2 selectivity to the contaminated groundwater system. Display omitted •Evaluation of oxyanion influence on the catalytic NO3− reduction kinetics.•Cl−, PO43−, BrO3− and SO32− significantly inhibited the catalytic NO3− reduction.•Inhibition effect of PO43−, SO32−, and BrO3− by competing for active catalytic sites.•N2 production remained unchanged with the addition of Cl−, ClO4− and BrO3−•N2 selectivity increased with higher concentrations of SO32−, SO42− and PO43-.
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