In this study a set of 10 coals varying in rank and maceral composition has
been devolatilised in a flat flame burner at 1000 and 1300 degreesC in ord
er to investigate the changes in char reactivity and structure as a functio
n of pyrolysis temperature. The intrinsic reactivity of the chars, measured
isothermally in a thermobalance at 500 degreesC, has been related to the p
etrographic characteristics of the chars and their CO2 surface areas. The t
emperature of pyrolysis has shown to have a strong effect on char reactivit
y for certain coals. Overall, the increase of temperature provoked an enhan
ced plasticity and a more extensive consolidation during the metaplast stag
e of pyrolysis and reduced the amount of unfused material in the chars. Thi
s effect was more pronounced in low volatile bituminous vitrinites and low
rank inertinites. The presence of inertinite derived materials in high rank
coal chars enhanced their reactivities, whereas the opposite was observed
for low rank coal chars. This was attributed to the fact that inertinite ma
cerals yield both isotropic and anisotropic materials: inertinite in low ra
nk coals increases the amount of anisotropic, less reactive char, but reduc
es it in high rank coals. (C) 2001 Elsevier Science B.V. All rights reserve
d.