Thermogravimetric curves in air of wood chars, obtained from different species and conventional or fast pyrolysis, show a low-temperature shoulder (devolatilization) followed by a high-temperature peak (combustion). A n-order global reaction provides a very poor description of the differential curves and requires relatively low activation energies. The combination with an additional first-order reaction for the devolatilization stage produces accurate predictions of both integral and differential curves. It also gives rise to much higher activation energies.
DEVOLATILIZATION AND COMBUSTION OF WOOD CHARS
Carmen Branca;
2004
Abstract
Thermogravimetric curves in air of wood chars, obtained from different species and conventional or fast pyrolysis, show a low-temperature shoulder (devolatilization) followed by a high-temperature peak (combustion). A n-order global reaction provides a very poor description of the differential curves and requires relatively low activation energies. The combination with an additional first-order reaction for the devolatilization stage produces accurate predictions of both integral and differential curves. It also gives rise to much higher activation energies.File in questo prodotto:
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