The Huanxian brown coal of the Lower Tertiary of East China is taken a
s an example for the study of relationships between coal chemical stru
cture and the mechanism of hydrocarbon formation. Maceral examination
shows that the brown coal has a high liptinite content (up to 20%), wh
ich includes alginites, resinites and sporinites. Fatty acids produced
from potassium permanganate stepwise oxidation of the brown coal are
mainly composed of normal and iso-branched saturated monocarboxylic (u
p to C29) and dicarboxylic (up to C9) acids. All of the aromatic acids
are mono- or dibasic, and most have no more than two rings. The Py-GC
fingerprint of this brown coal agreed well with the results of the ox
idation. XRD and C-13 NMR spectroscopic analyses show that the carbon
aromaticity of the coal ranges from 0.54 to 0.59. In combination with
the chemical analyses of the oxygen-containing functionalities, and C-
13 NMR measurements, various structural parameters and the carbon, oxy
gen and hydrogen atomic distributions of the brown coal were assessed.
Artificial thermal maturation of the brown coal was carried out both
by anhydrous and hydrous pyrolysis under different temperatures and ti
mes. Based on systematic analyses of the gaseous, liquid and solid pro
ducts, a mechanism of oil and gas formation, related to the thermal ev
olution of the coal structure, is proposed.