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Publikace detail

Cobalt Based Catalysts on Alkali-Activated Zeolite Foams for N2O Decomposition
Autoři: Tisler Zdenek | Klegova Anna | Svobodova Eligka | Safar Jan | Strejcova Katerina | Kohout Jan | Šlang Stanislav | Pacultova Katerina | Rodriguez-Padron Daily | Bulánek Roman
Rok: 2020
Druh publikace: článek v odborném periodiku
Název zdroje: Catalysts
Název nakladatele: MDPI
Místo vydání: BASEL
Strana od-do: "1398-1"-"1398-21"
Tituly:
Jazyk Název Abstrakt Klíčová slova
cze Katalyzátory na bázi kobaltu nanesené na alkáliemi aktivovaných zeolitických pěnách pro N2O rozklad Byl studován efekt alkalicky aktivovaných zeolitických pěn na vlastnosti a katalytickou aktivitu kobaltové fáze v procesu katalytického rozkladu N2O. přírodní zeolit; zeolitická pěna; alkalická aktivace; kobaltový katalyzátor; N2O rozklad
eng Cobalt Based Catalysts on Alkali-Activated Zeolite Foams for N2O Decomposition In this work, we studied the effect of alkali-activated zeolite foams modifications on properties and catalytic activity of cobalt phases in the process of catalytic decomposition of N2O. The zeolite foam supports were prepared by alkali activation of natural zeolite followed by acid leaching and ion exchange. The cobalt catalysts were synthesised by a different deposition technique (direct ion exchange (DIE) and incipient wetness impregnation (IWI) method of cobalt on zeolite foams. For comparison, catalysts on selected supports were prepared and the properties of all were compared in catalytic tests in the pellet form and as crushed catalysts to determine the effect of internal diffusion. The catalysts and supports were in detail characterized by a variety of techniques. The catalyst activity strongly depended on the structure of support and synthesis procedure of a cobalt catalyst. Ion exchange method provided active phase with higher surface areas and sites with better reducibility, both of these factors contributed to higher N2O conversions of more than 80% at 450 degrees C. A large influence can also be attributed to the presence of alkali metals, in particular, potassium, which resulted in a modification of electronic and acid base properties of the cobalt oxide phase on the catalyst surface. The promotional effect of potassium is better reducibility of cobalt species. natural zeolite; clinoptilolite; zeolite foam; alkali activation; cobalt catalyst; N2O decomposition