The Nature of the Active Phase in Sulfided NiW/γ-Al2O3in Relation to Its Catalytic Performance in Hydrodesulfurization Reactions

Autor: Reinhoudt, H.R, Troost, R, van Langeveld, A.D, van Veen, J.A.R, Sie, S.T, Moulijn, J.A
Zdroj: Journal of Catalysis; October 2001, Vol. 203 Issue: 2 p509-515, 7p
Abstrakt: The objective of this paper is to establish relations between the presence of particular surface species in sulfided NiW/γ-Al2O3catalysts and their catalytic activity in hydrosulferization (HDS) reactions. It was found that calcination and sulfidation temperatures influence selectivity and activity. The relationships found are quite different for the two reaction systems studied, i.e., gas-phase thiophene HDS and liquid-phase dibenzothiophene HDS. In the latter reaction, a high-temperature calcination at 823 K followed by a sulfidation up to 673 K results in a higher selectivity for hydrogenated products. Catalysts sulfided up to 673 K have a higher activity in liquid-phase dibenzothiophene HDS than those sulfided above 673 K. In contrast, catalysts sulfided up to 673 K have a relatively low activity for gas-phase thiophene HDS compared to those sulfided at 823 K. After high-temperature sulfidation the differences in the activity due to the preceding calcination step disappear. It is proposed that in low-temperature sulfided NiW/γ-Al2O3catalysts the active phase consists of a highly disperse Ni sulfide species, in close interaction with an oxysulfidic W6+phase. In NiW/γ-Al2O3catalysts sulfided above 750 K, the active phase consists of WS2slabs decorated with Ni sulfide and is characterized as Type I NiWS.
Databáze: Supplemental Index