Abstract
In this article, the effects of K species, including K2O, KCl, and K2SO4, on the Hg0 removal capability of MnOx/HZSM-5 adsorbent were investigated. Adding K2O and K2SO4 interfered with the Hg0 removal process; as the loading amount of these two K species increased, this adverse impact became more obvious. This was because the added K2O or K2SO4 lowered the acidity and oxidizability of the adsorbents via the interactions with MnOx, which exerted an inhibitory effect on the adsorption and oxidation of Hg0. By contrast, introducing KCl made almost no adverse impacts on the Hg0 elimination ability of the adsorbents. With rising the KCl content to 4 wt%, even ∼92.7% Hg0 removal efficiency was obtained. This could be attributed to the presence of Cl−; with the guidance of high-valence-state metal cations and O2, Cl− could be converted to active chlorine species, which was capable of transforming Hg0 to HgCl2. This finding supplied a theoretical basis for developing new adsorbents that were capable of stably operating in the power plants with high-alkali-content coal utilized.
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