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W3037936610 startingPage "127475" @default.
W3037936610 abstract "In this study, a novel Ti/SnO2–Sb anode, improved using a laser heating manufacturing procedure, was applied in wastewater treatment. For comparison purposes, similar anodes were manufactured using the conventional furnace heating procedure. Electrochemical characterizations in the background electrolyte confirmed that the novel material has improved electric conductivity, as compared to the furnace-made one and, hence, it may lead to much lower operating costs in real applications. The electrocatalytic properties of the novel anode in comparison with the conventional were evaluated using a standard and well-known reaction: the phenol oxidation. Different operational conditions were evaluated. Concentrations of phenol were monitored by HPLC and analysis of organic matter by TOC analyzer. The best condition of phenol removal was associated with a relatively low energy consumption of 0.80 kWh (gTOC)−1 and specific electrical energy consumption of 0.81 kWh m−3 order−1. Interestingly, the phenol is not completely removed after 60 min of treatment using the furnace-made anode under the same operating conditions in which was fully depleted with the new electrode. Moreover, chlorinated by-products remained in the final solution with the conventional electrode and were exhausted with the novel one. Finally, after an extensive comparison with literature about the oxidation of phenol, the Ti/SnO2–Sb produced by laser-manufacturing procedure presented the best phenol removal as compared with both non-active and active anodes." @default.
W3037936610 created "2020-07-02" @default.
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W3037936610 date "2020-11-01" @default.
W3037936610 modified "2023-10-14" @default.
W3037936610 title "Enhancement of wastewater treatment using novel laser-made Ti/SnO2–Sb anodes with improved electrocatalytic properties" @default.
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W3037936610 doi "https://doi.org/10.1016/j.chemosphere.2020.127475" @default.
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