Mass losses and burnout times of large (0.1, 0.2 g) char particles at
pressures of 101-760 kPa were measured in a newly designed high-pressu
re reactor. A cantilever balance measured instantaneous particle mass
and an optical pyrometer measured particle temperature continuously. T
he process was also videotaped. Sixty-two combustion experiments were
conducted with a bituminous coal and a iignite. The reactor air temper
ature was similar to 900 or 1200 K and the air flow Reynolds number wa
s varied by a factor of two. Coal particles were placed in a platinum-
wire basket inside the reactor at the end of the balance beam. An ash
layer accumulated around the particles and receded as the char was con
sumed. In all tests a linear decrease in cube root of char mass with t
ime was observed during oxidation until near the end of burnout, Chang
es in air velocity had little effect on oxidation time; increasing gas
temperature or increasing pressure from 101 to 507kPa reduced oxidati
on times by about one-quarter. Further increase in pressure caused no
further reduction in burnout time. Pairs of nearly equally sized parti
cles of coal had oxidation times similar to those of single particles
with the same total mass.