ANALYSIS OF ETHANOL FORMATION WITH THE ADDITION OF FE2O3, NIO,, AND CUO OXIDES FROME ARTCIFIAL PAL OIL MILL EFFLUENT (POME) IN ANAEROBIC PROCESSES
Indonesia is the world's largest palm oil producer with a production of 45.5 million metric tons in 2022. Large palm oil production certainly produces waste from the processing of oil palm fruit into CPO or what is commonly called Palm Oil Mill Effluent (POME). Processing of liquid waste pro...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/86123 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Indonesia is the world's largest palm oil producer with a production of 45.5 million
metric tons in 2022. Large palm oil production certainly produces waste from the
processing of oil palm fruit into CPO or what is commonly called Palm Oil Mill
Effluent (POME). Processing of liquid waste produced from CPO production can
produce renewable energy with one of its products being bioethanol. In the
anaerobic POME processing process, the addition of trace elements such as Al
(aluminum) Cu (copper), Ni (nickel), Fe (iron), and others will affect the formation
of ethanol. The metals used in this study are metal oxides such as Fe (iron), Cu
(copper), and Ni (nickel). The anaerobic process is carried out using a Circulated
Batch Reactor (CBR) reactor. Stirring using nitrogen is required to create an
anaerobic atmosphere before the reactor is operated. Sampling of the reactor is
carried out every 6 hours for pH, VSS, DO parameters. The DO results obtained
were that the acidogenesis process lasted an average of 18 hours, which was
marked by a decrease in pH to reach a range of 4.5-5.0. Bacterial growth
experienced in each variation of the experiment showed a positive trend with an increase in VSS. The effect of adding metal oxides did not produce a positive value,
but when compared to the reactor without adding metal, the reactor with the
addition of CuO metal, a combination of Fe2O3 and CuO, and a combination of a
mixture of 3 metals produced a degree of ethanofication (DE) greater than the
reactor without adding metal. Consecutively, the average values of replication 1
and 2 degree of ethanofication from the 3 reactors were -0.221; -0.153; -0.221.
Furthermore, the direction of the formation of the reactor with the addition of NiO
metal oxide will produce better volatile acid products than without adding NiO.
However, the mass balance results prove that there are still around 50-60% other
forms produced from COD degradation other than ethanol and TAV tested in this
study. |
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