Kf. Ng et al., SURFACE AND PORE STRUCTURE OF DEOILED ACID-TREATED AND HEAT-TREATED SPENT BLEACHING CLAYS, Journal of the American Oil Chemists' Society, 74(8), 1997, pp. 963-970
Samples of spent bleaching clay were deoiled by hexane, methanol, hexa
ne-methanol, and supercritical CO2 extractions. The deoiled clays were
regenerated by acid and heat treatments. Nitrogen adsorption isotherm
s for these samples are type IV with hysteresis loops corresponding to
type H3, indicating slit-shaped pores. Used deoiled and dried samples
have smaller surface areas and pore volumes than unused clay. The sur
face areas and pore volumes increased after heal treatment. Acidified
heat-treated deoiled samples have smaller surface areas and greater po
re volumes than unused clay, except for the methanol-deoiled sample. T
hus, heat and acid treatments removed substances adsorbed in the pores
that were not removed by solvents or CO2 extraction. This was confirm
ed from the ratios of the cumulative surface area/BET surface area, as
well as analysis of the pore size distributions, which indicated an i
ncrease in mesopores with radii of between 25 and 100 Angstrom. The t-
plots showed that smaller pores with sizes between 7 and 25 Angstrom p
resent originally in the unused clays, were closed by heat treatment.
These pores were absent in the deoiled and the heat-treated samples ex
cept for the heat-treated sample that was deoiled by hexane followed b
y methanol. Smaller pores, accompanied by an increase in surface area,
were also observed for all deoiled samples after acid and heat treatm
ents.