Akademik Veri Yönetim Sistemi
Bioenergy Studies, Black Sea Agricultural Research Institute, cilt.1, 2021 (Hakemli Dergi)
In response to increasing energy demands and the inevitable release of greenhouse
gases into the environment, researchers have turned their attention to biomass energy
production. Biomass offers a lot of benefits; however, it has poor calorific value due to
its higher moisture and volatile content. Carbonization can be used to overcome this
disadvantage and produce biomass with a higher carbon content. One of the most
promising thermochemical conversion techniques is gasification. In this study, biochar
from oak wood was gasified in a steam environment using Aspen Plus® simulation. The
downdraft gasifier model was developed under steady-state equilibrium parameters
based on the minimization of Gibbs free energy. As consistent with the literature, H2
was produced higher amount in the steam gasification (55.65%) compared with the air
gasification (17.36%). Parametric analyzes were performed to investigate the influence
of the operating parameters on the composition of the syngas. Results depicted that
the increasing temperature and steam/biochar ratio raised the H2 concentration from
53.21% to 55.72% and 54.50% to 56.84% in syngas respectively. Temperature also
showed positive influence on the LHV of syngas that changed between 19620-19708
kJ/kg. The steam/biochar ratio affected the LHV of syngas negatively thus it decreased
from 20257 to 18777 kJ/kg.