Chlorine dioxide is a well known powerful disinfectant. Although there are several chemical and electrochemical methods developed for on-line chlorine dioxide generation, the details are mostly confined as patents. We studied in this work the electrochemical generation of dissolved chlorine dioxide from an un-buffered solution of sodium chlorite and sodium chloride mixture in an un-divided electrochemical cell set-up with RuO2-coated-Ti anode and Pt-coated-Ti cathode under constant current mode. Various process parameters including feed flow rate (10 to 150 ml/min), feed solution pH (2.3 to 9.4), concentration of sodium chloride (0 to 170 mM), concentration of sodium chlorite (0 to 7.7 mM), and the applied current (100 to 1,200 mA) were optimized. Experiments were conducted by performing single pass experiments, with no circulation. The current efficiency and the power consumption were calculated for the optimized conditions, and compared with IrO2 electrode of our previous investigation.
Using RuO2 anode for chlorine dioxide production in an un-divided electrochemical cell
K. Chandrasekara Pillai, Tae Ok Kwon, Bo Bae Park, Il Shik Moon; Using RuO2 anode for chlorine dioxide production in an un-divided electrochemical cell. Water Sci Technol 1 April 2010; 61 (8): 2151–2160. doi: https://doi.org/10.2166/wst.2010.131
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