Application of TiO ₂-coated alumina beads to dielectric barrier discharge-photocatalyst hybrid process for NO and SO ₂ removals

NO and SO ₂ removal by dielectric barrier discharge-photocatalyst (DBD-P) hybrid process was examined for various conditions of process variables. Alumina beads were coated with TiO ₂ thin film by a rotating cylindrical PCVD reactor and they were packed inside the cylindrical reactor. The NO and SO ₂ removal efficiencies can be enhanced by using a combination of dielectric barrier discharge and photodegradation by TiO ₂. The stronger the applied voltage is, the higher the pulse frequency is, or the longer the gas residence time is, the higher the NO and SO ₂ removal efficiencies become. By applying additional photocatalytic effect, NO removal efficiency increased more significantly than SO ₂ removal efficiency, because SO ₂ removal efficiency was already high by dielectric barrier discharge only. In this study, we found that the alumina beads coated with TiO ₂ thin film by a rotating cylindrical PCVD reactor could be used effectively to remove NO and SO ₂ by DBD-P hybrid process.