Nanodispersed Ni-Catalysts with Additives in Partial Oxidation of Methane
DOI:
https://doi.org/10.18321/ectj436Abstract
Catalytic activity of Ni-Zn-surface-skeletal catalysts modified by Rh, Au, Ti, Mo and W in the reaction of methane partial oxidation has been studied. Influence of catalysts of conditions preparation on its catalytic activity was researched. It was shown that introduction of additives in Ni-Zn catalysts promote to increasing of activity in the process of methane partial oxidation to synthesis-gas and thermostability of skeletal Ni-catalysts thanks to the change of its faseous composition and the predominance of reduced form of Ni in catalysts structure.
References
2. S. Tang, K. Tan, Catal. Letters 51 (1998) 169-175.
3. N.C. Triantafyllopoulos, S.G. Neophytides, J. Catal. 217 (2003) 324-333.
4. S. Park, J.M. Vohs, R.J. Gorte, Nature (Gr. Brit.), (2000), Vol. 404, No 6775, pp. 265-267.
5. V.R. Choudhary, V.H. Rane, A.M. Rajput, Applied Catal. A: General 162 (1997) 235-238.
6. N.A. Zakarina, Ju.M. Arinkin, G.V. Akulova, in "Novosti nauki Kazakhstana" (Russian), Almaty, KazGosINTI, (1998), Vol. 4, pp. 45-46.
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