Luis Alzamora scite author profile

Resplts are presented for the total and metallic nickel areas of a series of coprecipitated nickel-alumina catalysts prepared and pretreated in different ways. The total areas of the samples decrease on reduction and with increasing reduction temperature, while the nickel area increases with reduction temperature. Increasing calcination temperature causes a decrease in total and nickel areas, this being particularly marked at high temperatures of calcination. A model for the catalyst system is proposed, based on these results and on complementary structural investigations. The high stability of the catalysts is attributed to the presence in the unreduced catalyst of nickel oxide rich phases containing dissolved aluminium ions; on reduction, alumina crystallises on the surface of the growing nickel crystallites, preventing sintering of the catalysts except under extreme conditions.

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Quijada¹,

Rojas²,

Alzamora³

et al. 1997

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Surface methylation of aerosil and its influence on the adsorption of water

Alzamora

Contreras

Cortés

1975

Journal of Colloid and Interface Science

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The effect of reaction parameters on catalytic activity in the polymerization of ethylene using supported and unsupported metallocene catalysts

Quijada¹,

Rojas²,

Narváez³

et al. 1998

Applied Catalysis A: General

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The Preparation and Pretreatment of Coprecipitated Nickel-Alumina Catalysts for Methanation at High Temperatures

Kruissink¹,

Doesburg²,

Reijen³

et al. 1979

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Luis Alzamora

Coprecipitated nickel–alumina catalysts for methanation at high temperature. Part 2.—Variation of total and metallic areas as a function of sample composition and method of pretreatment

Untitled

Surface methylation of aerosil and its influence on the adsorption of water

The effect of reaction parameters on catalytic activity in the polymerization of ethylene using supported and unsupported metallocene catalysts

The Preparation and Pretreatment of Coprecipitated Nickel-Alumina Catalysts for Methanation at High Temperatures

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