dc.description.abstract |
The objective of this study was to compare the performance of natural biosorbents (rice
hull and peanut hull) in removing organic pollutants from rice mill wastewater. The
biosorbents were prepared through the processes of washing, drying, grinding and sieving
to obtain particle size of less than 1 mm. Batch adsorption experiments were conducted for
rice hull and peanut hull separately for varying doses (0 - 6 g/L) and contact times (0 - 300
min) under similar conditions to determine the optimum dosage and optimum contact time
at pH 8.0±0.25 and at temperature 28±2 0C, respectively. The dose of 0 g/L was considered
as the control of the experiments. The performance efficiencies of the biosorbents were
tested based on the reduction of Biological Oxygen Demand (BOD) and Chemical Oxygen
Demand (COD) from wastewater using three replicates for each test. Results revealed that
the optimum doses of rice hull and peanut hull were found to be 3 g/L and 4 g/L
respectively in reducing organics. At the optimum doses of rice hull and peanut hull, BOD
reductions were observed to be 73% and 65%, whilst COD reductions were 73% and 70%,
respectively, at a contact time of 4.0 hours. Considering the optimum contact time at the
respective doses, the rice hull achieved optimum removal at 120 mins, whilst the peanut
hull achieved at 180 mins at the shaking of 150 rpm. Based on a two-way t-test, the rice
hull and the peanut hull significantly remove organics from the ricemill wastewater (pvalue
< 0.05). The findings showed that the rice hull is more efficient in the removal of
organics than peanut hull as rice hull requires lesser dose and contact time. Furthermore, it
was noticed that the rice hull is capable of adsorbing organics to its binding sites are faster
compared to the peanut hull. Therefore, considering the cost-effectiveness and promoting
waste to resource concept, the waste-derived biosorbents, such as rice hull and peanut hull,
can be used as potential biosorbents to remove organics from ricemill wastewater. |
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