Ethanol dehydration via azeotropic distillation with gasoline fractions as entrainers: A pilot-scale study of the manufacture of an ethanol–hydrocarbon fuel blend

We establish experimentally and through simulations the economic and technical viability of dehydrating ethanol by means of azeotropic distillation, using a hydrocarbon as entrainer. The purpose of this is to manufacture a ready-to-use ethanol–hydrocarbon fuel blend. In order to demonstrate the feasibility of this proposition, we have tested an azeotropic water–ethanol feed mixture, using a hydrocarbon as entrainer, in a semi pilot-plant scale distillation column. Four different hydrocarbons (hexane, cyclohexane, isooctane, and toluene) that are representative of the hydrocarbons present in ordinary gasoline have been tested. Each of these hydrocarbons was tested separately in experiments under conditions of constant feed rate and variable reboiler heat duty. The experimentally obtained results are compared with results calculated by a simulator. Finally, the proposed and traditional ethanol dehydration processes are compared to ascertain the advantages of the former over the latter.

Ethanol dehydration via azeotropic distillation with gasoline fraction mixtures as entrainers: A pilot-scale study with industrially produced bioethanol and naphta

Various hydrocarbons (n-hexane, cyclohexane, toluene, isooctane) and mixtures of them (binary, ternary or quaternary), as well as two different types of industrially produced naphtha (one obtained by direct distillation and the other from a catalytic cracking process), have been tested as candidate entrainers to dehydrate ethanol. The tests were carried out in an azeotropic distillation column on a semi pilot plant. The results show that it is possible to dehydrate bioethanol using naphtha as entrainer, obtaining as a result a fuel blend with negligible water content and ready for immediate use in motor vehicles.

Palladium(II) complexes with a phosphino-oxime ligand: synthesis, structure and applications to the catalytic rearrangement and dehydration of aldoximes

The treatment of [PdCl2(COD)] (COD = 1,5-cyclooctadiene) with 1 and 2 equivalents of 2-(diphenylphosphino)benzaldehyde oxime in dichloromethane at room temperature led to the selective formation of [PdCl2{κ2-(P,N)-2-Ph2PC6H4CH[double bond, length as m-dash]NOH}] (1) and [Pd{κ2-(P,N)-2-Ph2PC6H4CH[double bond, length as m-dash]NOH}2][Cl]2 (2), respectively, which represent the first examples of Pd(II) complexes containing a phosphino-oxime ligand. These compounds, whose structures were fully confirmed by X-ray diffraction methods, were active in the catalytic rearrangement of aldoximes. In particular, using 5 mol% complex 1, a large variety of aldoximes could be cleanly converted into the corresponding primary amides at 100 °C, employing water as solvent and without the assistance of any cocatalyst. Palladium nanoparticles are the active species in the rearrangement process. In addition, when the same reactions were performed employing acetonitrile as solvent, selective dehydration of the aldoximes to form the respective nitriles was observed. For comparative purposes, the catalytic behaviour of an oxime-derived palladacyclic complex has also been briefly evaluated.

Evaluación de la ingesta de líquido, pérdida de peso y tasa de sudoración en jóvenes triatletas

Introducción: El triatlón es un deporte de resistencia que comprende tres disciplinas: natación, ciclismo y carrera a pie. Es necesario establecer pautas de hidratación para prevenir deshidrataciones durante entrenamientos o competiciones y mantener un buen estado de hidratación antes, durante y después del ejercicio. El objetivo de este estudio es evaluar la ingesta de líquido, pérdida de peso y tasa de sudoración en jóvenes triatletas, durante diferentes entrenamientos. Material y Métodos: Estudio descriptivo-observacional en 14 triatletas (7 chicos y 7 chicas) durante una sesión de natación, otra de ciclismo y otra de carrera a pie. Se valoró la ingesta de líquido, pérdida de peso, % agua corporal total, % deshidratación y tasa de sudoración. Los triatletas bebieron agua en sus respectivos bidones de 750 ml y se realizó una medición de orina en containers. Resultados: Los resultados del estudio siguiendo el orden de natación, ciclismo y carrera a pie fueron: ingesta agua 2,66±1,94ml/min, 7,91±7,69ml/min y 7,08±4,13ml/min en chicos y 3,43±1,53ml/min, 6,39±5,36ml/min y 8,33±2,74ml/min en chicas; pérdida de peso 0,83±0,5kg, 0,47±0,3kg y 0,98±0,4kg en chicos y 0,79±0,3kg, 0,47±0,58kg y 0,28±0,21kg en chicas; y tasa sudoración 4,44±4,9ml/min, 11,81±6,46ml/min y 5,29±3,13ml/min en chicos y 3,89±2,4ml/min, 4,69±4,20ml/min y 7,96±5,06ml/min en chicas. Conclusiones: Se comparó el porcentaje de agua corporal y deshidratación, la pérdida de peso y la tasa de sudoración con otros estudios y se observa que nuestros resultados son inferiores a los estudios comparados, además están por debajo de la media de recomendaciones de líquido establecidas por el consenso de hidratación.