Abstract
Electro-scrubbing is being developed as a futuristic technology for the removal of air-pollutants. To date, only one homogeneous mediator for the removal of air pollutants has been generated in each experiment using a divided electrolytic flow cell in an acidic medium. This paper reports the concurrent generation of two homogenous mediators, one at the anodic half-cell containing an acidic solution and the other at the cathodic half-cell containing a basic solution. The concept was inspired by the change in pH that occurs during water electrolysis in a divided cell. A 10 M KOH electrolyte medium assisted in the electrochemical generation of low valent 14% Co1+ ([CoI(CN)5]4−) mediator formed from reduction of [CoII(CN)5]3− which was accompanied by a change in the solution 'oxidation reduction potential' (ORP) of −1.05 V Simultaneously, 41% of Co3+ was generated from oxidation of CoIISO4 in the anodic half-cell. No change in the solution ORP was observed at the cathodic half-cell when both half-cells contain 5 M H2SO4, and Co3+ was formed in the anodic half-cell. An electro-scrubbing approach based on the above principles was developed and tested on gaseous-pollutants, CH3CHO and CCl4, by Co3+ and Co1+, respectively, with 90 and 96% removal achieved, respectively.
Highlights
® tial factor is substantial due to the properties of membrane separators like Nafion 13
Because of the electrolyte pH change during water-electrolysis, the potential window tends to be widened by the −60 mV shift in EH+/H2 for every unit increase in pH17
To assess the ability of electrochemically generated Co3+ and Co1+ to each remove one air-pollutant, the possibility of simultaneous electro-scrubbing of two gas pollutants CH3CHO and CCl4 was examined in a continuous mode of operation coupled with monitoring of the time dependence of the concentrations of pollutants with an online Fourier transform infrared (FTIR) gas analyzer
Summary
® tial factor is substantial due to the properties of membrane separators like Nafion 13. The hypothesis that both high and low oxidation state mediators could be generated in one electrolytic experiment was tested in this study using the precursors, CoIISO4 (0.01 M) in 5 M H2SO4 in the anodic part of the cell and 0.01 M [CoII (CN)5]3− in 10 M KOH in the cathodic part to generate the Co3+ electrocatalyst in acid and Co1+ in base, respectively.
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