Search results for "Coke"

showing 2 items of 12 documents

Cracking Activity and Hydrothermal Stability of MCM-41 and Its Comparison with Amorphous Silica-Alumina and a USY Zeolite

1996

It has been found that the cracking activity of MCM-41 for a reaction catalyzed by strong acids site, such asn-heptane cracking, is much lower than that of a USY zeolite, and similar to that of amorphous silica-alumina. The higher activity of USY is due to the presence of stronger Bronsted acid sites in the zeolite. In the case of gas oil cracking, the greater accessibility of the large molecules to acid sites in MCM-41 relative to USY makes the difference in activity between these two catalysts much smaller than for the pure hydrocarbon. In the calcined state MCM-41 is more active and gives more gasoline and less gases and coke than amorphous silica-alumina. However, when the catalysts wer…

chemistry.chemical_classificationChemistryAmorphous silica-aluminaCokeCatalysisCatalysisAmorphous solidCrackingHydrocarbonChemical engineeringMCM-41Organic chemistryPhysical and Theoretical ChemistryZeoliteJournal of Catalysis
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Oxidative dehydrogenation of ethane: A study over the structure and robustness of Ni–W–O catalysts

2014

[EN] The robustness of one selected Ni-W-O catalyst has been studied in the oxidative dehydrogenation of ethane. This catalyst initially deactivates for the first 10 h online decreasing 15% of its catalytic activity compared to its initial stable catalytic activity. However from 10 to 60 h online the catalytic activity keeps almost stable. On the other hand, it has been shown that the Ni-W-O catalyst cannot tolerate an oxygen-free atmosphere (C-2 and He) as nickel oxide is transformed into metallic nickel. Methane and hydrogen as well as abundant coke were formed on the surface of the catalyst in these O-free conditions. However a re-calcination in air leads to the removal of coke, the cata…

inorganic chemicalsEthyleneHydrogenGeneral Chemical EngineeringCatalyst supportInorganic chemistryEnergy Engineering and Power Technologychemistry.chemical_elementCatalysisMethaneCatalysisEthylenechemistry.chemical_compoundDehydrogenationNickel tungstenOxidative dehydrogenation of ethaneOxide catalystsEthaneChemistryorganic chemicalsNickel oxideCokeFuel TechnologyNi-W-OHydrogenOxidative dehydrogenationFuel Processing Technology
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