Journal
FUEL
Volume 158, Issue -, Pages 891-897Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2015.05.034
Keywords
Elemental mercury; Catalytic oxidation; Silver
Categories
Funding
- Major State Basic Research Development Program of China (973 Program) [2013CB430005]
- National Natural Science Foundation of China [21277088, 50908145]
- National High-Tech R&D Program (863) of China [2013AA065403, 2012AA062504]
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The performance of catalyst-combining silver (Ag) and molybdenum (Mo) for elemental mercury (Hg-0) oxidation was clearly improved, and the experimental results demonstrated the synergy between Ag and Mo. The physical and chemical characterizations indicated that Ag-0 and Ag2MoO4 nanoparticles existed on the surface of TiO2 for Ag(2%)-Mo-Ti. Furthermore, the oxidation ability of Mo-Ti was enhanced, and the redox temperature decreased after silver was added. The gas component analysis demonstrated that HCl was the main catalytic component, and the catalyst still had high oxidation efficiency when O-2 was nonexistent. Ag(2%)-Mo-Ti had a superior resistance toward SO2. Furthermore, Hg-0 breakthrough, desorption, and HCl pretreated experiments were conducted to investigate the catalytic mechanisms of Hg-0 oxidation. The results indicated that Ag had an absorbency role on HCl and Hg-0, and Mo and chemical adsorption oxygen had a catalytic effect on HCl. Adsorbed active Cl subsequently reacted with adsorbed Hg-0 followed by the Langmuir Hinshelwood mechanism at low temperature. (C) 2015 Elsevier Ltd. All rights reserved.
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