Pyrolysis of cellulose and lignin

We investigated the d 13 C values of pyrolysis products from cellulose and lignin, the main components of wood, to prove that in the pyrolysis process no isotope exchange between different pyrolysis products appears and that hence pyrolysis products represent the isotope content of their precursors.

Cellulose-hemicellulose and cellulose-lignin interactions during pyrolysis at gasification temperature (800 8C) were investigated with various cellulose samples mixed with hemicellulose (glucomannan or xylan) or milled wood lignin. Significant interactions were observed in celluloselignin pyrolysis;

Solid/liquid- and vapor-phase interactions between cellulose- and lignin (Japanese cedar milled wood lignin)-derived pyrolysis products were studied under the conditions of N2/600°C/40–80s. A dual-space closed ampoule reactor was used to eliminate the solid/liquid-phase interactions, and careful com

Seven lignins from different sources were pyrolysed (i) isothermally in vacuum over the temperature range 30~1300°C and (ii) at a constant heating rate of 30°C min-' and a pressure of 0.1 MPa over the temperature range 15Ck9WC. The mass fraction of each product--char, tar and gas species-and the ele