A B S T R A C TThe experiment was c

A B S T R A C T
The experiment was conducted to evaluate the role of vermicompost as strong buffer and natural
adsorbent to reduce the transition metals, BOD, COD, total dissolved solids (TDS) and total suspended
solid (TSS) under laboratory condition from three industrial effluent viz. beverage, distillery and paper
mill. Adsorbent (vermicompost) prepared from cow dung with the help of exotic earthworm Eisenia fetida
was used in a glass column reactor (38 cm
3.2 cm i.d). The effluents were passed through the different
amount of vermicompost (20 g, 50 g and 100 g) with particle size upto 230 mm. The maximum adsorption
capacity was studied by applying the linear Langmuir and Freundlich isotherm model. The maximum
adsorption was noticed for Cu and the least for Zn. Freundlich adsorption isotherm was best fitted for Cu
in distillery effluent (n = 4.25) followed by Mn in beverage, paper mill and distillery effluent (n = 5.81,
4.95 and 7.75 respectively), Fe and Zn in beverage industry (n = 2.31 and 7.01). Vermicompost act as a
strong buffer to neutralize the pH of the effluent. The pH of the filtrate came to be 7.8 for beverage and
paper mill effluent and 5.8 for distillery effluent. EC of the filtrate increased to 4.0 mS/cm for beverage
effluent, 6.1 mS/cm for paper mill effluent and 8.1 mS/cm for distillery effluent from its initial value of 2.0,
4.8 and 6.9 mS/cm respectively. The value of COD was 2.5 times less than their respective initial values.
Vermicompost removed the high BOD of the industrial effluents and it came down to 174.0 mg/L for
beverage industry, 260.0 mg/L for paper mill effluent and 5806.0 mg/L for distillery effluent from its
initial value of 387.5 mg/L, l440.0 mg/L and 17200.0 mg/L respectively. TDS and TSS of the effluents
respectively came down to 72.0 mg/L and 246.0 mg/L for beverage effluent, 210.0 mg/L and 230.0 mg/L for
paper mill effluent and 206.7 mg/L and 105.7 mg/L for distillery effluent