Fernando Morales Anzures scite author profile

BACKGROUND: The purpose of this study was to evaluate the juice of the fescue grain sorghum, since it is a low-cost agricultural waste, for the production of bioethanol to be used as a gasoline additive. In addition, the octane number has been investigated by varying the ethanol-gasoline mixture 2, 6 and 10%. RESULTS:The wort fermentation was carried out with commercial bread yeast (Saccharomyces cerevisiae). The liquor obtained was characterized and quantified through gas chromatography. Bioethanol-gasoline mixtures were prepared as: 2, 6 and 10% v/v to determine their octane index. Bioethanol was purified in a fractional distillation tower, attaining thereby a 93.5% purity: lastly, it was dehydrated through molecular sieves to obtain a 99.2% final purity bioethanol. Spectroscopy aided also to determine that the bioethanol-gasoline mixture containing 10% ethanol attained an octane index of 89, which is the value required for commercial gasoline in Mexico. CONCLUSION:The bioethanol obtained from the fermentation of juice of fescue grain sorghum is indeed viable to be used as additive in gasolines. The fermentation can be carried out with the bread yeast, at the natural pH of the juice and without the addition of nutrients, which leads to an attractive economic process.

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Methanolysis of Simarouba Glauca DC oil with hydrotalcite-type ZnCuAl catalysts

Hernández¹,

Anzures²,

Pérez-Hernández

et al. 2020

Catalysis Today

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Síntesis y caracterización de ZrO₂ y el sistema ZrO₂-CuO

Anzures

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CAP~TULO 2 PREPARACIóN Y CARACTERIZACIÓN DE CATALIZADORES 2. l. PREPARACIóN DE CATALIZADORES 2.1. l. MÉTODOS DE PREPARACIóN DE CATALIZADORES 2.1.1.1. MÉTODO SOL-GEL a) QU~MICA DEL PROCESO SOL-GEL 2.1.1.2. IMPREGNACI~N POR MOJADO INCIPIENTE a) QUíMICA DEL PROCESO DE IMPREGNACIóN 2.1.1.3. MEZCLA MECANICA 2.2. CARACTERIZACIÓN DE CATALIZADORES 2.2.1. TÉCNICAS DE CARACTERIZACI~N DE CATALIZADORES 2.2.1.1. TÉCNICAS FÍSICAS a> D I F R A C C I ~N DE RAYOS x (XRD)Por ejemplo, en la figura 1.1, se muestra la estructura de TiOz-SiOz, donde Ti02 es el óxido en mayor proporción, y la de SiO?-TiOz, donde Si02 es el óxido en mayor proporción. En dicha figura, los números de coordinación de los elementos positivos en los óxidos individuales, permanece en 4 para Si y en 6 para Ti cuando son combinados para obtener el óxido mixto, mientras que los elementos negativos permanecen en 3 y 2 respectivamente de acuerdo a los postulados a) y b). En el caso de la figura 1.1 .a, las cuatro cargas positivas del átomo de Si están distribuidas a cuatro enlaces, es decir, una carga positiva esta distribuida a cada enlace, mientras que las dos cargas negativas del átomo de oxígeno están distribuidas a tres enlaces, es decir, -213 de una unidad de Valencia esta distribuida a cada enlace. La diferencia en carga para un enlace es

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