Reagent usage and particle size are important factors in the beneficia
tion of coal by froth flotation. For ultrafine particles, the recovery
and purity of the final product obtained depend on the froth structur
e, which is affected by reagent adsorption on the solids and the natur
e of solids. In this study, the -5 mum size fractions of two low rank
British coals, taken from Bickershaw and Rawdon collieries, were used
in reagent adsorption measurements. The adsorption studies were carrie
d out using two different non-ionic reagents; diacetone alcohol and 2-
ethyl hexanol. The fine coal fractions were chosen to reflect the degr
ee of fine grinding required to liberate the mineral particles from th
e coal. Measurements of the internal pore distributions showed marked
differences between Rawdon and Bickershaw coals. Molecular modelling o
f the surfactants was performed and it was found that both diacetone a
lcohol and 2-ethyl hexanol were small enough to penetrate the interior
pores, in a randomly oriented fashion. The adsorption of the reagents
strongly depends on the chemical nature of the reagents and the coal
surface. Molecular orientation of the reagent molecules to the coal su
rface also plays an important role on the adsorption process.