ABOUT ME h5>
Currently at Universidad de Las Américas, Ecuador
http://investigacion.udla.edu.ec/udla_teams/katiuska-alexandrino/
PUBLICATIONS h5>
2015
Alexandrino, Katiuska; Millera, Ángela; Bilbao, Rafael; Alzueta, María U
Novel aspects in the pyrolysis and oxidation of 2,5-dimethylfuran Artículo de revista
En: Proceedings of the Combustion Institute, vol. 35, no 2, pp. 1717–1725, 2015, ISSN: 15407489.
@article{Alexandrino2015,
title = {Novel aspects in the pyrolysis and oxidation of 2,5-dimethylfuran},
author = {Katiuska Alexandrino and Ángela Millera and Rafael Bilbao and María U Alzueta},
doi = {10.1016/j.proci.2014.06.002},
issn = {15407489},
year = {2015},
date = {2015-01-01},
journal = {Proceedings of the Combustion Institute},
volume = {35},
number = {2},
pages = {1717--1725},
publisher = {Elsevier Ltd},
abstract = {In order to contribute to the study of the behavior of 2,5-dimethylfuran (2,5-DMF), a promising biofuel to be used as fuel or additive in automotive applications, an experimental and kinetic modeling study of the pyrolysis and oxidation of 2,5-DMF has been carried out using well controlled flow reactor installations. The influence of temperature, stoichiometry, 2,5-DMF concentration, and pressure has been analyzed. A detailed chemical kinetic mechanism built from different literature sources was used to describe the pyrolysis and oxidation of 2,5-DMF under the experimental conditions studied. Results attained extend the existing experimental database on 2,5-DMF and, for the first time, its tendency to form soot is analyzed. Additionally, the effect of pressure, which would be of interest for the use of this compound as a part of diesel fuels, has been evaluated.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
In order to contribute to the study of the behavior of 2,5-dimethylfuran (2,5-DMF), a promising biofuel to be used as fuel or additive in automotive applications, an experimental and kinetic modeling study of the pyrolysis and oxidation of 2,5-DMF has been carried out using well controlled flow reactor installations. The influence of temperature, stoichiometry, 2,5-DMF concentration, and pressure has been analyzed. A detailed chemical kinetic mechanism built from different literature sources was used to describe the pyrolysis and oxidation of 2,5-DMF under the experimental conditions studied. Results attained extend the existing experimental database on 2,5-DMF and, for the first time, its tendency to form soot is analyzed. Additionally, the effect of pressure, which would be of interest for the use of this compound as a part of diesel fuels, has been evaluated.