Degradation of aniline in water with gaseous streamer corona plasma

This paper demonstrated the effects and influencing factors in degrading aniline by gaseous streamer corona plasma along water surface under different discharging gas atmospheres. For aniline with an initial concentration of 100 mg l(-1), the degradation was fastest when the reactor was not ventilated, and the degradation rate is 98.5% under 7.5 min treatment. While the degradation was slowest when Ar was ventilated, the degradation rate is 98.6% after treatment for 60 min. Some active particles were detected using a multi-channel fibre-optic spectrometer during the discharge, such as Ar, OH, N-2, N2+ and N. In particular, NO was detected during air discharge. The NO and N2+ could produce NO3-; then generated nitric acid would affect the pH value of the solution. The intermediate product by N-2 discharge is nitrophenol, and nitrophenol would be converted to p-benzoquinone. The O-2 discharge could produce an intermediate product of aminophenol. The intermediate products in Ar discharge were in small amounts and the final mineralization effect was the best.

Automated summary

The study showed that the degradation of aniline was fastest when the reactor was not ventilated and slowest when Ar was ventilated. Active particles detected during discharge included Ar, OH, N-2, N2+, and N, with NO detected during air discharge. Intermediate products like nitrophenol and p-benzoquinone were observed, with the best mineralization effect seen in Ar discharge.