Effect of Solvothermal Treatment on Physical Properties of Nickel and Aluminum Based Oxide Powders Synthesized by Coprecipitation

Guilherme Luis Cordeiro; Walter Kenji Yoshito; Valter Ussui; Nelson B. Lima; Dolores Ribeiro Ricci Lazar

doi:10.4028/www.scientific.net/MSF.820.73

Paper Titles

Study of the Characterization of Smectitic Clays from a Town in the State of Paraíba
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Physico-Mineralogical Characterization: Bentonitic Clays Recently Found in Olivedos, Paraíba, Brazil
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Characterization, Modification and Rheology of Green Clay
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Bentonite Clays Characterization in the Town of Sossego – Paraiba State
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Effect of Solvothermal Treatment on Physical Properties of Nickel and Aluminum Based Oxide Powders Synthesized by Coprecipitation
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Ceramic Membrane Made of Alumina Synthesized by Pechini Method for Application in Microfiltration Processes
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Production of Mullite from Bentonite Clays and Alumina Residue
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Influence of Power and Synthesis Time in the Formation of Mullite Obtained by Microwave Heating
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Synthesis of the MgAl₂O₄ Spinel Obtained via Combustion Reaction Using Glycerine from the Biodiesel as a Fuel for Producing Cellular Ceramics
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HomeMaterials Science ForumMaterials Science Forum Vol. 820Effect of Solvothermal Treatment on Physical...

Effect of Solvothermal Treatment on Physical Properties of Nickel and Aluminum Based Oxide Powders Synthesized by Coprecipitation

Abstract:

Improvements of the catalytic efficiency of nickel–aluminum oxides in reforming reactions for hydrogen production have been achieved by the development of synthesis processes that provide powders with high surface area. The reduction of the crystallization temperature is one of the procedures in this direction. In this work, the effect of solvothermal treatment on coprecipitated gels with 15 wt% nickel content in alumina matrix was evaluated. Powders were obtained by coprecipitation with and without treatment of gels under n-butanol vapor pressure at 150oC. Products were characterized by TG/DTA, X-ray diffraction, specific surface area measurements, scanning electron microscopy and laser beam scattering for granulometric distribution determination. The results showed that calcined powders have high specific surface area (ranging from 170 to 260 m².g^-1) and are composed by gamma alumina and nickel aluminate phases. Aging treatment did not promote hydroxides decomposition under solvothermal conditions, indicating the need of calcination step.