Quantitative analysis of aromatic carbon types in pitch by fused-state 13C n.m.r. spectroscopy

Three H-Coal liquids, ASO, ASB, and VSO, have been characterized by quantitative FT-n.m.r. spectroscopy. FT-parameters were chosen to allow determination of aromatic:aliphatic carbon ratios to within 1% and 2% error of the theoretical and the absolute number of aromatic and aliphatic carbons in a si

A sample of kerogen from Aleksinac oil shale was examined by high-resolution solid-state Iac n.m.r. spectroscopy. The presence and relative proportions of kerogen structural units were estimated using a combination of NQS and Tlpc methods with a peak-synthesis technique applied to the 13C CP-MAS spe

## Cross -polarization and magic-angle spinning suggest that the aromatic carbons in oil shales are largely inert to thermal processes and instead are responsible for the carbonaceous residue obtained during retorting. These results are based on 13C n m.r. measurements of the organic carbon distri

A number of samples of shale oil prepared under various conditions have been examined by 13C n.m.r. using multiple-pulse techniques that allow carbon-type assignments. Previous assignments by Netzel et a/. (Fuel 1981,60,307) are confirmed and several new ones made. Product chemistry is then examined