bachelorThesis
Simulación de la gasificación catalítica de biomasa de banano en la producción de hidrógeno; a partir de un reactor de lecho fijo, mediante ANSYS estudiantil
Fecha
2022-11-22Autor
Gaona Cumbicos, Jessica Mayli
Naula Duchi, Kelly Dayanna
Institución
Resumen
Biomass gasification technology is of constant interest in the field of sustainable energy,
being used as an alternative to traditional combustion technology, especially due to the
reduction in the emission of dust and toxic gases. In gasification, hermochemical
conversion of organic material, biomass, is carried out, obtaining a gaseous product of
great interest known as synthesis gas. The current focus on sustainable energies is
aimed at obtaining bioethanol from organic compounds that generally come from waste;
however, there is a wide field of study in redirecting the course of the saccharified product
to gasification to increase energy efficiencies, as well as the use of catalysts to favor the
reaction rate and obtain the gas of interest.
Therefore, this research’s objective was to simulate a banana biomass gasification
process and system operating conditions during the process. Using Ansys students, the
operating conditions of temperatures and fluid velocities were established, whose values
were adopted in the simulation of the gasification reaction. In this way, an operating
temperature of 604.05 °C was obtained inside the reactor at atmospheric pressure; the
temperature of the gasifying agent was 226.85 °C. The mathematical model of the
reaction was developed through the reaction kinetics taking as reference the kinetic
study based on glucose using the Langmuir-Hinshelwood mechanism, which involves
the adsorption of the reactants, catalytic surface reaction. desorption of the products of
the dominant reactions: the water-gas shift reaction (WGS), the reverse dry methane
reforming reaction (RDRM) and the steam methane reforming reactions (SRM), with
which the model describing the evolution of the molar flux with respect to time and Zcoordinate of the main products, i.e. hydrogen (H2), methane (CH4), carbon monoxide
(CO), carbon dioxide (CO2) and water (H2O), was obtained. The results of the molar flux
concernig time considering 25 s of reaction were 0.16 mol/s of H2, 0.08 mol/s of CO, 0.16
mol/s of CO2, 0.12 mol/ of CH4 and 0.10 mol/s of H2O, the molar fluxes cocnerning
concerning the longitudinal axis Z with a varying pressure of 2 bars, did not vary in
comparison with the previous ones. The H2/CO ratio was also analyzed and showed a
value of 2.2 for both cases