Thermal waves resulting from the dynamic adsorption of organic vapor presen
t in air on a granular activated carbon (GAC) filter were studied. An exper
imental design was carried out to determine the influential factors among t
he relative humidity of air (0-60%), the initial water content of the activ
ated carbon (0-9.8%), and the volatile organic compound (VOC) concentration
(0-50 g . m(-3), i.e;, 0-20,700 ppmv for acetone). The temperature increas
e is a function of the initial VOC concentration as well as the energy flux
released. The warming of the adsorber is shown to be important for the ads
orption of high VOC concentrations on a dry carbon bed, but the thermal amp
litude is distinctly reduced when the GAC is initially wet because of water
desorption. The moisture content of the air in the range of 0-95% is not f
ound to be a prominent factor affecting both the adsorption capacity and th
e warming of the GAC bed for the high VOC concentration tested (20,700 ppmv
of acetone). Temperature monitoring provides interesting information about
the adsorption process, and the mechanisms involved are discussed.