| dc.description.abstract | The synthesis of fatty acid methyl esters has been carried out through the
transesterification of palm oil and methanol using durian peel ash as a heterogeneous
catalyst. Durian skin powder was oven dried at 600°C for 4. The reaction conditions
carried out in this study were variations in reaction time (5, 10, 20, 30, and 40 minutes)
and stirring speed (3000, 4000, 5000, 6000, and 7000 rpm) at a molar ratio of oil:
methanol of 1 :15 and catalyst 5% (w/w). The conversion of fatty acid methyl esters
was analyzed using gas chromatography (GC) and the change in functional groups
from oil to fatty acid methyl esters was determined using an FT-IR spectrophotometer.
The highest conversion of fatty acid methyl esters for varying reaction times was
obtained at 95.81 ± 0.71 %, namely at a molar ratio of 1 :15, stirring speed of 5000
rpm, catalyst weight of 5% w/w, reaction time of 10 minutes and acid methyl ester
yield The highest fat was obtained at 96.2 + 1.6% at a molar ratio of 1 :15, stirring
speed of 5000 rpm, catalyst weight of 5% w/w, reaction time of 40 minutes. The highest
conversion of fatty acid methyl esters for varying stirring speeds was obtained at 96.5
± 1.31 %, namely at a stirring speed of 7000 rpm, molar ratio 1 :15, catalyst weight 5%
w/w, reaction time 10 minutes and methyl yield The highest fatty acid ester was
obtained at 97.0 + 1.8o/o at a stirring speed of 6000 rpm, molar ratio 1 :15, catalyst
weight 5% w/w, reaction time 10 minutes. The formation of fatty acid methyl esters is
characterized by differences in the shape of the stretching vibration peak -C-0-C- at
wave numbers 1300-1000 cm-1 where in oi I the strongest absorption of the 3 peaks is
in the second position (middle) while in fatty acid methyl esters the absorption is the
highest. strong appears in the rightmost position. | en_US |
