Influence of Gas Atmosphere on Synergistic Control of Mercury and Dioxin by Non-Thermal Plasma

In this paper, narrow-pulse power discharge is used to study the synergistic control of mercury and dioxins, in which 1,2,4-trichlorobenzene (TCB) was used as a dioxin analog, by using a self-designed experimental system. The competitive effects of NO, SO2 and HCl on the TCB removal by non-thermal plasma are discussed. The influence of acid gas on TCB degradation is reflected in the competitive effect. NO has the greatest influence on TCB degradation efficiency. The oxidation efficiency of Hg-0 decreased by about 10% in all three acidic gas atmospheres, and the effect of each gas component on Hg-0 oxidation is complex. In the flue gas atmosphere of 'acid gas + Hg-0 + TCB', the mechanism of the synergistic control of Hg-0 and TCB by the non-thermal plasma is different, which has competition and promotion relationship between each other. The contribution of various flue gas components to the results was complicated, but the overall experimental results show that the synergistic control effect of the system can continue to improve. According to the generated product backstepping, center dot OH plays an important role in the synergistic control of the degradation of Hg-0 and TCB. Through this study, we hope to provide basic research data for the collaborative control of flue gas in the incineration industry.