Kentaro Umeki scite author profile

Fast pyrolysis of wood and straw was conducted in a drop tube furnace (DTF) and compared with corresponding data from a wire mesh reactor (WMR) to study the influence of temperature (1000-1400) • C, biomass origin (pinewood, beechwood, wheat straw, alfalfa straw), and heating rate (10 3• C/s, 10 4• C/s) on the char yield and morphology. Scanning electron microscopy (SEM), elemental analysis, and ash compositional analysis were applied to characterize the effect of operational conditions on the solid residues (char, soot) and gaseous products. The char yield from fast pyrolysis in the DTF setup was 3 to 7 % (daf) points lower than in the WMR. During fast pyrolysis pinewood underwent drastic morphological transformations, whereas beechwood and straw samples retained the original porous structure of the parental fuel with slight melting on the surface. The particle size of Danish wheat straw char decreased in its half-width with respect to the parental fuel, whereas * Corresponding author. pgl@kt.dtu.dk * * Corresponding author. atru@kt.dtu.dkPreprint submitted to Fuel Processing Technology July 24, 2018 the alfalfa straw char particle size remained unaltered at higher temperatures. Soot particles in a range from 60 to 300 nm were obtained during fast pyrolysis. The soot yield from herbaceous fuels was lower than from wood samples, possibly due to differences in the content of lignin and resin acids.

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Kinetic study of catalytic gasification of wood char impregnated with different alkali salts

Kirtania

Axelsson

Μάτσακας

et al. 2017

Energy

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Kentaro Umeki

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Kinetic study of catalytic gasification of wood char impregnated with different alkali salts

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