Effect of solution pHThe solution p

Effect of solution pH
The solution pH significantly influences the adsorption capacity
of Cr(VI) on adsorbent because it determines the ionization and
speciation of Cr(VI) as well as providing a favorable surface charge
of the adsorbent for the adsorption to take place. The predominant
Cr(VI) forms in aqueous solution are H2Cr2O7 at pH < 1, HCrO4
at
1 < pH < 6, and CrO4
2
at pH > 6 [26]. Among these anions, HCrO4

is more preferentially adsorbed on positively surface charged
activated carbons [6,27]. This has led to the highest removal
efficiency of Cr(VI) on activated carbons at a pH range of 2–4
[5,28,29]. However, in addition to pH value, the concentration of Cr
(VI) will also influence its predominant speciation and adsorption
efficiency. For the same pH, increasing Cr(VI) concentration will
inevitably reduce the percentage of HCrO4
, which will in turn
reduce the Cr removal efficiency. Unfortunately, most of the
previous studies focused only on the effect of pH on Cr(VI) removal
with a
fixed Cr(VI) concentration, whereas the removal efficiency
of Cr(VI) from aqueous solutions with varied pH values and Cr(VI)
concentrations was rarely reported. Further, at low pH, Cr(VI) will
be reduced to Cr(III) in the presence of activated carbons, which
will also decrease the overall removal rate of Cr as Cr(III) is difficult
to adsorb on activated carbons due to its large coordination sphere
with water [7,30].