Xh. Wang et al., ESTIMATION OF HYDROGEN MOBILITY OF COAL-TAR PITCH FOR CARBON-FIBER USING A TRITIUM TRACER METHOD, Fuel processing technology, 38(2), 1994, pp. 69-83
Three coal tar pitches for high performance carbon fiber (HPCF) and ge
neral performance carbon fiber (GPCF) were hydrogenated by tritium lab
elled gaseous hydrogen in the absence of both catalyst and vehicle sol
vent under conditions of temperature 300-400-degrees-C, nominal reacti
on time 0-300 min and initial hydrogen pressure 5.9 MPa. The relative
rate constants and apparent activation energies for hydrogen transfer
from gas phase to the pitches have been estimated by tracing tritium.
The apparent activation energies for hydrogen addition from the gas ph
ase to the three pitches were very close (ca. 9-10 kcal/mol), but appa
rent activation energies for hydrogen exchange between the gas phase a
nd the three pitches were different from each other (HP, 15.4; GP-A, 2
.9; GP-B, 3.7 kcal/mol). Especially, apparent activation energy of hyd
rogen exchange of the raw pitch for HPCF was significantly larger than
those of the raw pitches for GPCF. These results of kinetic parameter
s for hydrogen transfer can be used to evaluate the distribution and m
obility of hydrogens in component molecules of pitches.