The gasification
behavior of six different biomass species (four
forest pruning residues including Pinus pinaster, Pinyon pine, Eucalyptus, and white poplar as well as two types of garden prunings) has been
investigated in a pilot fluidized bed gasifier to experimentally quantify
(i) the yields of pyrolytic gas released from the fuel particle in
the absence of oxygen; (ii) the effect of oxygen on the gas yields
and the significance of the secondary reactions (gasification of char and reforming/cracking of
gas species) during gasification with air; and (iii) the effect of
fuel throughput on gasification performance. Continuous steady-state
experiments were conducted using air at temperatures 800, 850, and
900 °C, equivalence ratios (ER) in the range of 0.16–0.32,
and throughputs between 245 and 426 kg/h/m2, as well as
semicontinuous (batch of fuel in a continuous gas stream) devolatilization
experiments with N2 (ER = 0). Although significant quantitative
differences in the gas yields, char conversion, gas heating value,
and gasification efficiency were found for different fuels, the trends
with changing temperature and ER followed similar characteristics. P. pinaster gave the best results, showing cold gas
efficiencies of up to 70% at 900 °C, while white poplar and garden
prunings performed considerably worse. The effect of throughput was
analyzed for three out of six fuels, and it was observed to be small
for P. pinaster and garden prunings,
whereas it was significant for white poplar as a result of the lower
bulk density of white poplar compared to the other fuels. The results
conclude about gas composition and process efficiency expected from
different biomass residues in fluidized bed gasifiers and provide
fundamental data to validate a theoretical model, currently under
development, to scale up the process.
of fluidized bed gasification of biomass assisted by solar-heated particlesThe MIT Faculty has made this article openly available. Please share how this access benefits you. Your story matters.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.