Indigo Carmine Degradation in Water Induced by a Pulsed Positive Corona Discharge in Air: Discharge and Postdischarge Effects.
Date
2022
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Abstract
In recent years, one of the fastest growing technological applications in the field of nonthermal plasmas is the degradation of organic contaminants of water. In this work, the degradation of
indigo carmine (IC) in water induced by a pulsed positive corona discharge operating in ambient
air is reported. Degradation levels in different volumes of IC in solution with distilled water treated
with different plasma exposure times immediately after discharge (0 h), and in the postdischarge
up to 24 h were examined. To explain the IC discoloration in the postdischarge phase, a chemical
model was developed. The stability of the reactive species in solution nitrate (NO3
−), nitrite (NO2
−)
and hydrogen peroxide (H2O2
), as well as the properties of the solution (electrical conductivity, pH)
were also measured. The results suggest that the hydroxyl radical (OH˙) as well as ozone (O3
) are the
main oxidizing species during the discharge phase, being primarily formed in the gas phase through
plasma-mediated reactions and then transferred to the liquid by diffusion, while the OH˙ production
in the bulk liquid through the decomposition of peroxinitrous acid (O=NOOH) plays a major role in
the IC degradation during the postdischarge. These results are associated with a noticeably increase
in the energy-yield values observed at 24 h post-treatment.
Description
Keywords
Nonthermal plasma., Indigo carmine degradation., Pulsed corona discharge., Postdischarge effects., Reactive species in water.
Citation
Plasma 2022.
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