Lean methane combustion over palladium loaded on alumina and HBETA zeolite: the role of the support on water vapour inhibition

Hosseiniamoli, Hadi; Kennedy, Eric M.; Stockenhuber, Michael

Title: Lean methane combustion over palladium loaded on alumina and HBETA zeolite: the role of the support on water vapour inhibition
Creator: Hosseiniamoli, Hadi; Kennedy, Eric M.; Stockenhuber, Michael
Relation: 11th Asia-Pacific Conference on Combustion (ASPACC 2017). Proceedings of the 11th Asia-Pacific Conference on Combustion (Sydney 10-14 December, 2017)
Publisher: UNSW
Resource Type: conference paper
Date: 2017
Description: Catalytic combustion of ventilation air methane is a potential solution for abatement of this greenhouse gas (GHG) source. A leading hypothesis for the observed catalyst deactivation of palladium-based catalysts when operating at low temperature is water poisoning. In this research, high silica BETA and alumina solids were used as supports for the Pd-based catalyst. The long term stability of methane conversion is significantly improved over HBETA compared to alumina supported Pd. TEM and chemisorption analyses confirms a greater level of dispersion of Pd in the HBETA compared to alumina support. TPD results shows that the Pd/Alumina catalyst adsorbs more water vapour at lower temperatures compared to Pd/HBETA resulting in an enhancement in the extent of water inhibition. Evidence for the presence of stored oxygen was observed in oxygen desorption results, where oxygen and water were co-adsorbed over the samples. This feature is also consistent with the supposition that Pd/HBETA has greater lattice oxygen mobility and a higher potential storage capacity compared to that of Pd/Al₂O₃. In addition, it was found that at lower temperatures, the effective surface coverage of oxygen was higher for Pd/HBETA compared to Pd/Alumina which was confirmed by TPD analysis.
Subject: catalyst deactivation; methane conversion; oxygen adsorption; aluminium; resources engineering; physical chemistry; industry
Identifier: http://hdl.handle.net/1959.13/1387705
Identifier: uon:32657
Language: eng
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