1. A potassium responsive numerical path to model catalytic torrefaction kinetics.
- Author
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Silveira, Edgar A., Macedo, Lucélia A., Rousset, Patrick, Candelier, Kevin, Galvão, Luiz Gustavo O., Chaves, Bruno S., and Commandré, Jean-Michel
- Subjects
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POTASSIUM , *CATALYSIS , *THERMOGRAVIMETRY , *EUCALYPTUS , *CARBON dioxide , *BIOMASS , *ACTIVATION energy - Abstract
To assess the potassium catalytic influence on the kinetic behavior of non-oxidative biomass torrefaction, two woody biomass samples (Amapaí and Eucalyptus), as well as Miscanthus samples impregnated with three different K 2 CO 3 concentrations (0.003 M, 0.006 M, and 0.009 M) were comprehensively studied. The solid thermal degradation kinetics were analyzed through thermogravimetric analysis in usual torrefaction conditions (275 °C during 68min and 10 °C.min−1 heating rate) and an original Potassium Responsive Numerical Path (PRNP). Therefore, a two-step reaction model with unified activation energies was integrated within a numerical method that considers the torrefaction severity influence for each potassium-loading content in all three biomasses. The proposed PRNP enables an accurate solid yield prediction (R2 > 0.9995). A strong (R2 between 0.91 and 0.99) and a significant (p ≤ 0.0463) linear correlation was highlighted between the potassium content in biomass, the increasing reaction rates, and pre-exponential factors. The solid and volatile product distribution depicted faster and marked degradation for solid pseudo-components and anticipated a higher volatile release. The catalytic torrefaction severity factor determination enabled correlating treatment severity and kinetic rates showing better correlations than K% for wood biomass. The accurate results are conducive to developing numerical models that are essential for assessing solid fuel upgrading under catalytic effect in torrefaction plants. [Display omitted] • K 2 CO 3 content in biomass influences its torrefaction kinetics. • A potassium responsive numerical path is proposed to model the torrefaction kinetics. • Pre-exponential factors increased linear correlation with K %. • A significant linear correlation is observed for reaction rates with CTSF. • The catalytic impact on the pseudo-component evolution was assessed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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