the treatment of solutions containi

the treatment of solutions containing soluble dyes is performed
by biochemical and coagulation processes. All these
methods are either costly, inefficient or result in the production
of secondary toxic waste products. Recently, advanced
oxidation processes (AOP) have received considerable attention
because it is possible to degrade organic compounds
and color from wastewaters (Schrank et al., 2007; Chanderia
et al., 2012). Fenton process as an important AOP technology
has been attracting growing interest. It is well known
that OH radicals can be produced by Fenton’s reaction of
H2O2 with Fe2+ and Fe3+ salts as presented in the following
equations.
Fe2þ þ H2O2 þ Hþ ! Fe3þ þ OH þ H2O ð1Þ
Fe3þ þ H2O2 ! Fe2þ þ HO
2 þ Hþ ð2Þ
Fe3þ þ HO
2 ! Fe2þ þ O2 þ Hþ ð3Þ
The generated OH radical is a powerful oxidant and starts
a cascade of oxidation reactions that can convert the organic
matter in solution completely into water, carbon dioxide,
and inorganic compounds (Han et al., 2011). By tailoring the
conditions of the reaction, OH radicals which possess powerful
oxidizing potential up to +2.8 V can attack a wide variety
of toxic contaminants (Soon and Hameed, 2011).
The main objective of this work is to determine the influences
of various parameters on the degradation of DB71 dye
by the Fenton process in aqueous solution. The effect of pH,
the concentration of H2O2, Fe2+ and dye and the temperature
were investigated to determine the optimal operating conditions
for a better performance of the degradation. COD of
the mixture was determined.