Revealing Insights into the Mechanism of Hg⁰ Removal over MnO₂ Hollow Sphere Adsorbents: Effect of Calcination Temperatures

Abstract: In this study, MnO2 hollow spherical adsorbents were synthesized using the template approach, and the impacts of calcination temperatures on their physicochemical parameters and Hg0 removal ability were investigated. The adsorbent calcined at 300 °C (labeled as Mn300) demonstrated the highest performance; at 200 °C, the Hg0 removal efficiency reached over 90%. The presence of surface acid sites promoted the physisorption of Hg0 and compensated for the relatively weak oxidative ability, which made much of the H… Show more

“…Therefore, it is speculated that the oxidation reaction of Hg 0 in the Cl–Cu–Ce–BTC catalyst primarily follows the Mars–Maessen mechanism. 5,58 The reaction pathway is depicted as follows:Hg 0 (a) + O α → HgO(a)Hg 0 (a) + O β → HgO(a)HgO(a) → HgO(g)Hg 0 (a) + 2Cl → HgCl 2 (a)HgCl 2 (a) → HgCl 2 (g)…”

“…Therefore, it is speculated that the oxidation reaction of Hg 0 in the Cl-Cu-Ce-BTC catalyst primarily follows the Mars-Maessen mechanism. 5,58 The reaction pathway is depicted as follows:…”

In situ construction of halogen MOF bifunctional catalysts for synergistic removal of NO and Hg⁰

“…Therefore, it is speculated that the oxidation reaction of Hg 0 in the Cl–Cu–Ce–BTC catalyst primarily follows the Mars–Maessen mechanism. 5,58 The reaction pathway is depicted as follows:Hg 0 (a) + O α → HgO(a)Hg 0 (a) + O β → HgO(a)HgO(a) → HgO(g)Hg 0 (a) + 2Cl → HgCl 2 (a)HgCl 2 (a) → HgCl 2 (g)…”

“…Therefore, it is speculated that the oxidation reaction of Hg 0 in the Cl-Cu-Ce-BTC catalyst primarily follows the Mars-Maessen mechanism. 5,58 The reaction pathway is depicted as follows:…”

In situ construction of halogen MOF bifunctional catalysts for synergistic removal of NO and Hg⁰

Elemental mercury removal by adsorbent CuO-modified MnO2 nano-hollow spheres: performance, kinetics, and mechanism

Remove elemental mercury from simulated flue gas by CeO2-modified MnOx/HZSM-5 adsorbent