DEGRADASI LIMBAH CAIR PABRIK KELAPA SAWIT OLEH KATALIS δ-MnO2 MENGGUNAKAN TAHAP PRE-TREATMENT DENGAN ADSORBEN FLY ASH TERAKTIVASI HCl
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Date
2021-08
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perpustakaan UR
Abstract
Fresh Palm oil mill effluent (POME) is a thick brownish colour in the viscous and
colloidal suspension, having an unpleasant odour and high value of BOD and COD,
thus sensitive to environmental issues. The most widely used ponding systems for
POME treatment have to ways such as long hydraulic retention time (HRT), obsolete,
and require large area pond. Alternative treatment systems need to be introduced and
studied to anticipate incoming problems associated with the limitations of the current
system. In this study, the adsorption-degradation process was investigated for the
treatment of the POME. The adsorption process was conducted using the adsorbent of
palm oil fly-ash activated with HCl solution at a temperature of 105 oC for 24 hours.
The composition of activated ash was determined by X-ray fluorescence (XRF) and
contains SiO2 (47.778%), CaO (20.646%), K2O (6.041%), P2O5 (12.586%), MgO
(6.324%) and Fe2O3 (4.304%). The adsorption process was able to reduce 37.50% of the
initial COD value using 0.025 mg/L mg of activated fly ash, POME volume 100 ml for
15 minutes of reaction time. Whereas the degradation of POME following the
adsorption process by layer birnessite (δ-MnO2) catalyst, H2O2 concentration of 17,000
mg/L and POME volume 20 mL in 60 minutes further reduced 61.33% of COD value.
These tandem processes seem to be promising to tackle the POME issue in near future
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Keywords
catalyst, degradation, fly ash