Water remediation contaminated with MTBE using a catalytic oxidation process in batch reactor: influence of the cerium loading on the activity and CO2 selectivity

Water remediation contaminated with MTBE using a catalytic oxidation process in batch reactor: influence of the cerium loading on the activity and CO2 selectivity

Destruction of methyl tert-butyl ether (MTBE) in liquid phase and in a batch reactor was studied using ruthenium catalysts over alumina support, modified with different cerium loadings. Ce loading increment causes an increase in the particle size from 1.26 nm to 2.3 nm, enhancing the MTBE oxidation...

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Veröffentlicht in:Water science and technology 2018-11, Vol.78 (7), p.1509-1516
Hauptverfasser: Torres-Torres, G., Cuauhtémoc-López, I., Espinosa de los Monteros, A., Frías-Márquez, Dora Ma, Arévalo Pérez, J. C., del Angel, G.
Format: Artikel
Sprache:eng
Schlagworte:
Alumina
Aluminum oxide
Batch reactors
Carbon dioxide
Catalysis
Catalysts
Catalytic activity
Catalytic oxidation
Cerium
Chemical oxygen demand
Contamination
Gasoline
Liquid phases
MTBE
Nitrogen
Oxidation
Oxidation process
Oxidoreductions
Oxygen transfer
Performance evaluation
Phenols
Reactors
Ruthenium
Selectivity
Service stations
Temperature effects
Water pollution
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Zusammenfassung:Destruction of methyl tert-butyl ether (MTBE) in liquid phase and in a batch reactor was studied using ruthenium catalysts over alumina support, modified with different cerium loadings. Ce loading increment causes an increase in the particle size from 1.26 nm to 2.3 nm, enhancing the MTBE oxidation (at 150 °C), and the selectivity toward CO2. The high catalytic activity of Ru/ACe10 is attributed to the species Ce4+-O2−-M that could favor the oxygen transfer between the catalyst surface and the adsorbed species by a redox mechanism. Thus, CeOx plays an important role in both enhancing the affinity between MTBE and catalyst during MTBE adsorption and promoting the catalytic activity for MTBE oxidation.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.2018.430