Abstract

AbstractElectrical discharges generated at water-gas interface in a dielectric barrier discharge reactor have been tested for the degradation and mineralization of a model pharmaceutical compound sulfamethoxazole (SMX). Nonthermal plasma degradation of the pollutant proceeds via in-situ generation of active species like hydroxyl radical (HO•), hydrogen peroxide and ozone. It has been observed that degradation and mineralization of SMX was enhanced on addition of ZrO

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