Decolorization of synthetic wastewa

Decolorization of synthetic wastewater by immobilized cells in air-bubble bioreactor and effect of sugar addition
Prepared 7.5 liters of dye and 0.5 liter of inoculum in 10-liter air-bubble bioreactor and supplemented with 0.5 vvm of aeration rate by aquarium pump. Sampling and determination of decolorization (%), pH, laccase activity and total sugar were carried out until decoloriza¬tion reached more than 90%. Drained 50% of dye volume from the reactor and added 50% volume of fresh dye and repeated the previous step again until decolorization was found to be lower than 90% in 24 h. If the total sugar was lower than 0.03 g/l, various sugars such as glucose, sucrose or molasses were added in the reactor.CMU. Journal (2006) Vol. 5(3)  303

Decolorization of real wastewater by immobilized cells in 10-liter air-bubble bioreactor
Before the decolorization experiment, real wastewater was characterized for absorbance spectrum at 200-800 nm by spectrophotometer along with pH, COD, total suspended solid, total plate count and color determination. Decolorization was conducted using 7.5 liters of real wastewater and 0.5 liter of inoculum in 10-liter air-bubble bioreactor and supplemented with 0.5 vvm of aeration rate by aquarium pump. With 6 h-interval sampling, dye solution was centrifuged at 10,000 rpm for 10 min and measured the absorbance at 500 nm. Laccase activity and pH were also determined.
Enzyme assay
Laccase activity was determined by oxidation of 2,6-Dimethoxyphynol (DMP), and was determined for an increase in absorbance at 470 nm as described by Khanongnuch et al., (2004). One unit of laccase activity was defined as the amount of enzyme that oxidized 1 μmol of DMP per minute.