Abstract:
This study was aimed to find low cost efficient treatment technique to treat highly polluted textile dyeing waste-water. Waste-water collected from a local textile dyeing industry was subjected to coagulation, Fenton oxidation,
and adsorption methods. Initial characterization of waste water was
performed using standard methods. Initial COD and BOD5 of untreated waste water were 1441 ppm and 223 ppm respectively. The waste water is
not suitable for biological aeration treatment due to low BOD/COD ratio.
The waste water is not suitable for discharge into inland water bodies due to
noncompliance of water quality parameters prescribed by the Central
Environmental Authority Sri Lanka. Coagulation was carried out using Al2(SO4)3 as the coagulant. Minimum effective dose of Al3+ was 300 ppm and 54% COD reduction was achieved at pH 9 for the selected samples. The raw wastewater treated by the Fenton oxidation using 0.33 g/L H2O2 and
1.90 g/L FeSO4 resulted 85% COD reduction. Use of Fenton oxidation as a post-treatment after coagulation with Al2(SO4)3, the COD reduction was enhanced to 97%. Adsorption studies using commercially available activated charcoal and charcoal prepared by rice husks resulted 43% COD reduction when the adsorbent dose is 1 g/L. UV-Vis spectroscopic data shows that the adsorption on to charcoal and coagulation is quite efficient in waste water
decolouration. Based on the COD reduction the combined treatment of
coagulation and Fenton oxidation of waste water can be used to achieve the quality standards prescribed by the central environmental authority, Sri Lanka.