Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa

Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa

Making biodiesel from jatropha oil have been made through transesteri-fication reaction. This study aims to determine the optimum catalyst temperature and KOH concentration on the transesterification reaction of castor oil to produce a product with maximum unsaturated fatty acid content; a...

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Main Authors: RAGIL SARYOSO, PRANOTO, TRIANA KUSUMANINGSIH
Format: Article
Language:English
Published: MBI & UNS Solo 2006-05-01
Series:Bioteknologi
Subjects:
jatropha oil
reaksi transesterifikasi
biodiesel
Online Access:http://biosains.mipa.uns.ac.id/C/C0301/C030104.pdf
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spelling doaj-77141aaa5e234d6eb7a59a9a05411a072020-11-25T03:41:40ZengMBI & UNS SoloBioteknologi0216-68872006-05-01312026Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis BasaRAGIL SARYOSOPRANOTOTRIANA KUSUMANINGSIHMaking biodiesel from jatropha oil have been made through transesteri-fication reaction. This study aims to determine the optimum catalyst temperature and KOH concentration on the transesterification reaction of castor oil to produce a product with maximum unsaturated fatty acid content; as well as to study the properties of jatropha oil ester based diesel fuel specifications. Transesterification was performed by reaction of jatropha oil and methanol in ratio of 1: 2 for 2 hours according to variations in temperature and KOH concentration. Temperature variations performed at room temperature, 55°C, and 65°C. KOH variations performed at concentration of 0.2 g, 0.3 g, 0.4 g, 0.5 g, 0.6 g, 0.7 g, 0.8 g and 0.9 g. The research indicated that jatropha oil saponification number was 180.455. Analysis by Gas Chromatography Mass Spectroscopy (GC-MS) were obtained oleic methyl ester (Rt 15.45 min and SI 88), linoleic acid methyl ester (Rt 13.250 min and SI 89), 11-octadecanoic methyl ester (Rt 13.333 min and 94 SI ) and risinoleic methyl ester (Rt 11.383 min and SI 91) as dominant unsaturated fatty acid ester in jatropha oil. Transesterification reaction of jatropha oil in methanol have maximum unsaturated fatty acid content at temperature of 65oC and optimum catalyst concentration of KOH at 0.178 M (0.4 g). Analysis using the American Society for Testing Materials (ASTM) method generated pour point value was 8oF, kinematic viscosity was 16.324 cSt, water content was 0.015 %vol, conradson carbon residue was 0.204 %wt. The properties are very closely to diesel oil specifications that can be used as biodiesel.http://biosains.mipa.uns.ac.id/C/C0301/C030104.pdfjatropha oilreaksi transesterifikasibiodiesel
collection DOAJ
language English
format Article
sources DOAJ
author RAGIL SARYOSO
PRANOTO
TRIANA KUSUMANINGSIH
spellingShingle RAGIL SARYOSO
PRANOTO
TRIANA KUSUMANINGSIH
Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa
Bioteknologi
jatropha oil
reaksi transesterifikasi
biodiesel
author_facet RAGIL SARYOSO
PRANOTO
TRIANA KUSUMANINGSIH
author_sort RAGIL SARYOSO
title Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa
title_short Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa
title_full Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa
title_fullStr Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa
title_full_unstemmed Pembuatan Bahan Bakar Biodisel dari Minyak Jarak; Pengaruh Suhu dan Konsentrasi KOH pada Reaksi Transesterifikasi Berbasis Katalis Basa
title_sort pembuatan bahan bakar biodisel dari minyak jarak; pengaruh suhu dan konsentrasi koh pada reaksi transesterifikasi berbasis katalis basa
publisher MBI & UNS Solo
series Bioteknologi
issn 0216-6887
publishDate 2006-05-01
description Making biodiesel from jatropha oil have been made through transesteri-fication reaction. This study aims to determine the optimum catalyst temperature and KOH concentration on the transesterification reaction of castor oil to produce a product with maximum unsaturated fatty acid content; as well as to study the properties of jatropha oil ester based diesel fuel specifications. Transesterification was performed by reaction of jatropha oil and methanol in ratio of 1: 2 for 2 hours according to variations in temperature and KOH concentration. Temperature variations performed at room temperature, 55°C, and 65°C. KOH variations performed at concentration of 0.2 g, 0.3 g, 0.4 g, 0.5 g, 0.6 g, 0.7 g, 0.8 g and 0.9 g. The research indicated that jatropha oil saponification number was 180.455. Analysis by Gas Chromatography Mass Spectroscopy (GC-MS) were obtained oleic methyl ester (Rt 15.45 min and SI 88), linoleic acid methyl ester (Rt 13.250 min and SI 89), 11-octadecanoic methyl ester (Rt 13.333 min and 94 SI ) and risinoleic methyl ester (Rt 11.383 min and SI 91) as dominant unsaturated fatty acid ester in jatropha oil. Transesterification reaction of jatropha oil in methanol have maximum unsaturated fatty acid content at temperature of 65oC and optimum catalyst concentration of KOH at 0.178 M (0.4 g). Analysis using the American Society for Testing Materials (ASTM) method generated pour point value was 8oF, kinematic viscosity was 16.324 cSt, water content was 0.015 %vol, conradson carbon residue was 0.204 %wt. The properties are very closely to diesel oil specifications that can be used as biodiesel.
topic jatropha oil
reaksi transesterifikasi
biodiesel
url http://biosains.mipa.uns.ac.id/C/C0301/C030104.pdf
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AT pranoto pembuatanbahanbakarbiodiseldariminyakjarakpengaruhsuhudankonsentrasikohpadareaksitransesterifikasiberbasiskatalisbasa
AT trianakusumaningsih pembuatanbahanbakarbiodiseldariminyakjarakpengaruhsuhudankonsentrasikohpadareaksitransesterifikasiberbasiskatalisbasa
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