The separation of different mineral

The separation of different minerals by flotation is achieved by the
addition of various reagents such as collectors, frothers and depressants.
These reagents all have their specific function in the process and in
principle all promote the separation of the valuable minerals from the
gangue. However, it has already been shown (Wiese et al., 2006), that in
addition to their intended primary function, the reagents may have
secondary effects that can change or override the desired effect. These
secondary effects can mainly be attributed to the interactions between the
reagents, such as frother–collector interactions (Taggart and Hassialis,
1946; Leja and Schulman, 1954; Leja, 1982; El-Shall et al., 2000); modified
composite effects or changes in the adsorption mechanisms at the solidliquid
interfaces.
Polysaccharide type polymers are widely used as gangue depressants
in the flotation of platinum bearing minerals. The most commonly
used polymers are different types of carboxymethyl-celluloses, guars
and starches.
Frothers are important additives in flotation with a major influence
on the bubble size, stability and mobility of the froth phase. One of the
most widespread frothers used in flotation plants are non-ionic
polyglycols such as Dowfroth 200, Dowfroth 250, etc.
The combined effect of surfactants and polysaccharides has been
researched in connection with many applications such as colloidal
stabilization, wettability, adhesion and foam formation and stability
(Kwak, 1998; Bhattacharyya et al., 2000). The interaction of polysaccharide
type polymers with anionic (e.g. sodium-dodecylsulphate) and
cationic surfactants (e.g. DTAB, TTAB, CTAB) has been studied in the past
with different methods, such as surface tension measurements,
ellipsometry, Brewster angle microscopy (Trabelsi and Langevin,
2007), viscosimetry, potentiometry, light scattering (Mata et al., 2006)
and surface viscoelasticity (Regismond et al., 1997). Rheological studies
of non-ionic surfactants (isododecyl and cetyl polyoxyethylene ethers)
and polysaccharide (sodium alginate, guar gum, and sodium carboxymethyl
guar) blends have also been done (Fijan et al., 2007). The
results of these studies have shown that the combined effect of
surfactant/polymer blends on the surface chemical and rheological
properties of the system is different from the effect caused by the single
reagents due to different mechanisms.
From the flotation perspective there have not been any studies
done on the interaction of flotation frothers and depressants and their
combined effect on foams and froths. The froth quality and stability in
flotation is mainly attributed to the frother type and the presence of
fine solids that stabilize the froth. However, recent observations have
shown that the froth quality is also influenced by the presence of
other reagents such as depressants not only through their influence
on the flotation and entrainment of solids, but also through their
influence on the foam/froth quality by some other, so far un-discussed
mechanism.
The basic idea of this research came from the observation, that when
shaken in small vials, frothers form more stable foams in presence of
depressants than alone. In order to determine what is the reason for the
above phenomena, a detailed experimental program was planned and
carried out.