Carbonization of aromatic hydrocarbon—VII: The role of active carbonizing species in the catalytic carbonization of pyrene

The aluminum chloride catalyzed carbonization of heterocyclic nitrogen compounds such as carbazole, phenazine, and acridine was studied from the viewpoint of the kinetics and the structure of intermediates, in order to elucidate how the similar nitrogen compounds were carbonized to cokes of differen

Factors influencing the coke yield in the carbonization of hydrogenated pyrenes were investigated from the view of reactivities of their hydrogens. The amount of hydrogen located at 4ppm in their proton NMR spectrum was found to be intimately related to the coke yield of hydrogenated pyrenes. Oxidat

Carbonization mechanisms of three heterocyciic sulfur compounds catalyzed by aluminium chloride were investigated in order to resolve the factors which influence the optical texture of the coke produced from these compounds. The extent and rate of sulfur elimination, the rate of carbonization as mea

The catalytic activity of carbon supported potassium was studied in a fixed bed flow reactor at 0.1 MPa by using synthesisgas (CO + H,)ofvarious compositions and various water vapour contents. In the temperature range between 400 and 550°C the carbon monoxide shift reaction: CO + H,OeCO, + H,, may b

Microscopic observation of carbons obtained from pure aromatic hydrocarbons by the aid of carbonization catalysts was carried out to clarify the microstructure of these carbons of different features. Reflected polarized-light microscopy distinguished needle, mosaic and isotropic cokes, former two of