Waste cooking oil transesterification in biodiesel production utilizing ca/ai2o3 heterogeneous catalyst / Fatin Nur Syahirah Marodzi
The increasing demand for fossil fuel (petroleum and diesel) in the market brings a great concern to the global economy as it is natural and non-renewable sources. Several studies on alternative diesel (biodiesel) has been performed in which the non-renewable sources was substituted with renewabl...
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| Format: | Student Project |
| Language: | English |
| Published: |
Faculty of Applied Sciences
2016
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| Subjects: | |
| Online Access: | http://ir.uitm.edu.my/id/eprint/23135/1/PPb_FATIN%20NUR%20SYAHIRAH%20MARODZI%20AS%20C%2016_5.PDF http://ir.uitm.edu.my/id/eprint/23135/ |
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| Summary: | The increasing demand for fossil fuel (petroleum and diesel) in the market brings a
great concern to the global economy as it is natural and non-renewable sources.
Several studies on alternative diesel (biodiesel) has been performed in which the
non-renewable sources was substituted with renewable sources such as waste
cooking oil. It was an initiative to reduce the usage of the natural sources. The
process of transforming waste cooking oil into biodiesel is called transesterification.
The process has been carried out in the round bottom flask fitted with reflux
condenser. Generally, waste cooking oil consists of FFA and biodiesel consist of
FAMB. This study involved two transesterification methods which were one step
reaction (transesterification) and two-step reaction (esterification-transesterification)
and the CaO/Al203 as heterogeneous catalysts. The concern parameters studied were
reaction time and catalyst loading. The results showed, the combination of
esterification and transesterification gave high biodiesel yield (30.91 %) compared to
one step reaction (28.49%) with optimum reaction condition of 3 wt.% of
CaO/Al203 catalyst, 12:1 methanol to oil ratio at temperature of 65°C for 3 hours.
The biodiesel obtained was analyzed using FTIR and GC-MS to prove the FFA
content in the waste cooking oil sample had been converted to FAMB. The catalyst
proved could be used in the biodiesel production. FTIR results of catalyst analysis
proved that all the impurities were eliminated after calcined at 1000°C. |
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