Effect of Size and Distribution of Ni Nanoparticles on [gamma]-Al2O3 in Oleic Acid Hydrodeoxygenation to Produce n-Alkanes

To contribute to the search for an oxygen-free biodiesel from vegetable oil, a process based in the oleic acid hydrodeoxygenation over Ni/[gamma]-Al2O3 catalysts was performed. In this work different wt % of Ni nanoparticles were prepared by wetness impregnation and tested as catalytic phases. Oleic...

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Veröffentlicht in:	Catalysts 2016-01, Vol.6 (10), p.156
Hauptverfasser:	Sanchez-Cardenas, Manuel, Medina-Valtierra, Jorge, Kamaraj, Sathish-Kumar, Ramírez, Rodolfo Rafael Medina, Sanchez-Olmos, Luis Antonio
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Sprache:	eng
Schlagworte:	Catalysts Chemical reactions
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creator	Sanchez-Cardenas, Manuel Medina-Valtierra, Jorge Kamaraj, Sathish-Kumar Ramírez, Rodolfo Rafael Medina Sanchez-Olmos, Luis Antonio
description	To contribute to the search for an oxygen-free biodiesel from vegetable oil, a process based in the oleic acid hydrodeoxygenation over Ni/[gamma]-Al2O3 catalysts was performed. In this work different wt % of Ni nanoparticles were prepared by wetness impregnation and tested as catalytic phases. Oleic acid was used as a model molecule for biodiesel production due to its high proportion in vegetable oils used in food and agro-industrial processes. A theoretical model to optimize yield of n-C17 was developed using size, distribution, and wt % of Ni nanoparticles (NPs) as additional factors besides operational conditions such as temperature and reaction time. These mathematical models related to response surfaces plots predict a higher yield of n-C17 when physical parameters of Ni NPs are suitable. It can be of particular interest that the model components have a high interaction with operation conditions for the n-C17 yields, with the size, distribution, and wt % of Ni NPs being the most significant. A combination of these factors statistically pointed out those conditions that create a maximum yield of alkanes; these proved to be affordable for producing biodiesel from this catalytic environmental process.
doi_str_mv	10.3390/catal6100156
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title	Effect of Size and Distribution of Ni Nanoparticles on [gamma]-Al2O3 in Oleic Acid Hydrodeoxygenation to Produce n-Alkanes
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