posted on 2023-11-01, 13:40authored byWei Liu, Xin Min, Jin Zhao, Songjian Zhao
In this study, a novel dry capture process utilizing
a mixed adsorbent
of ZnO and CuS was proposed for the simultaneous removal of Hg0 and SO3 in flue gas from zinc smelting, addressing
severe mercury pollution and high SO3 concentrations. The
experimental results showed that flue gas cooling caused the SO3 to transform into sulfuric acid mist, which changed the reaction
mechanism from a gas–solid to a liquid–solid reaction
and helped to improve the SO3 removal efficiency. Additionally,
properly increasing the absorbent/SO3 molar ratio significantly
improved the SO3 removal performance. However, excessive
absorbent injection could cause aggregation and uneven dispersion
of the absorbent particles in the flue gas, therefore impairing the
effectiveness of SO3 capture. Under typical operating conditions
(flue gas flow rate of 3500 m3/h, flue gas temperature
of 180 °C, ZnO/SO3 molar ratio of 0.74, and residence
time of 0.5 s), using a mixed absorbent of ZnO and CuS achieved an
SO3 removal efficiency of up to 32.6%, and a total mercury
capture at 43.2%, of which the Hg0 removal attained a remarkable
76.3%. These results preliminarily confirm the feasibility of the
dry capture technology for simultaneous removal of SO3 and
mercury, laying the foundation for further application and promotion.