Advanced oxidation process and biotreatment: Their roles in combined industrial wastewater treatment

The use of Fenton's reagents in destruction of waste material present in Tambla Tributory (Durgapur,India) industrial wastewater has been investigated. Significant drop in COD removal has been observed. Optimisation of process parameters like pH, temperature, H2O2 and FeSO4 has been done. Tempe...

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Bibliographic Details
Published in:Desalination 2010-01, Vol.250 (1), p.87-94
Main Authors: Mandal, Tamal, Maity, Sudakshina, Dasgupta, Dalia, Datta, Siddhartha
Format: Article
Language:English
Subjects:
Biochemical treatment (T. ferrooxidans)
Combined treatment process
Cost engineering
Crack opening displacement
Degradation
Fenton's oxidation and coagulation
Fenton's reagents
H2O2/FeSo4 ratio
Microorganisms
Oxidation
Reduction
Synergistic effect
Wastes
Wastewater
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Summary:The use of Fenton's reagents in destruction of waste material present in Tambla Tributory (Durgapur,India) industrial wastewater has been investigated. Significant drop in COD removal has been observed. Optimisation of process parameters like pH, temperature, H2O2 and FeSO4 has been done. Temperature and pH played a key role in this treatment process, in addition the process initially liberated heat due to reaction between FeSO4 and H2O2. From the experimental results it has been observed that with increasing FeSO4 and H2O2 concentration the degradation of waste increases. At an optimum concentration of FeSO4 (6 gm/l) and H2O2 44.40 gm/l reduced 60% COD, whereas 220gm/l H2O2 was required for 95% COD removal. To reduce cost and the H2O2 concentration for maximum waste degradation, Fenton's oxidation process followed by biochemical treatment was tried at same experimental condition. The treatment enhanced the overall removal efficiency of COD, BOD, salinity and colour significantly. The microbial treatment by Thiobacillus ferrooxidans, following Fenton's reagents treatment, showed that the COD reduction has reached to about 97% compared to 60% with Fenton's reagents and 17% with T. ferrooxidans alone in 24h, showing the synergistic effect. Thus the combined treatment results indicate the possibility to minimize the Fenton's reagents without compromising the efficiency of the process but ultimately reducing the overall treatment cost. This study seems to be very much important and economical by reducing the required H2O2 amount to about five times using a suitable micro-organism. This hybrid treatment system showed 97% COD reduction can be achieved within two days.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2009.04.012