The conversion of Victorian brown coal into a hard densified product i
s described. Densified brown coal (DBC) is readily moulded or extruded
into a convenient form and is characterized by reduced moisture conte
nt, greater bulk density and increased strength. Removal of water is i
nitiated by a kneading process and continues during drying under ambie
nt conditions. The loss of water is also accompanied by pellet shrinka
ge and an increase in crush strength. The development of crush strengt
h is attributed to an increase in pellet density arising from greater
coal compaction through the formation of a particulate gel network. Th
e extent of compaction and the strength of the carbonaceous gel networ
k depends on the pH and the nature of the acidic oxygenated functional
groups in the coal. Derivatization of acidic functionalities, by 0-me
thylation, results in a collapse of the coal network structure to give
a product with inferior physical properties owing to the blockage of
potential bonding sites. Acidic coals produce DBC of moderate density
and strength, whereas base-treated coals produce very dense and strong
er products. The improved physical properties of the base-treated DBCs
is attributed in part to the presence of ionic associations between t
he coal particles to give a stronger three-dimensional network.