Production of bio-fuel : effect of the addition of co-solvent (co2) in the non-catalytic transesterification supercritical methanol towards operating coditions

Sulaiman, Siti Zubaidah and Che Man, Rohaida and Abdul Mudalip, S. K. and Izhab, Izirwan and Abdullah, Hamidah and Yunus, Rosli Mohd (2011) Production of bio-fuel : effect of the addition of co-solvent (co2) in the non-catalytic transesterification supercritical methanol towards operating coditions. , [Research Report] (Unpublished)

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Abstract

This research focused on effect of co-solvent towards production of biodiesel via sub/supercritical methanol. The objective of this research is to study the effect of C02 as co-solvent in production of Jatropha Oil Methyl Ester at sub/Supercritical of methanol and to optimize operating parameters such as reaction temperature, C02 volume and the ratio of methanol/oil. The reaction has been canied out in the absence of catalyst due to the easier purification process. The raw materials used in this study are refined jatropha oil, high grade methanol (solvent) and C02 (co-solvent). It is believed that addition of co-solvent with lower critical point will reduce the severity of reaction temperature and pressure. Jatropha oil, methanol and C02 were charged into the supercritical reactor with appropriate mole ratio. The mixture is then heated up to desired reaction temperature. The reaction pressure was recorded and the reactor is cooling down until room temperature. The product is then removed and proceeds for purification. The product sample is analyzed to determine the yield percentage of methyl ester using gas chromatography. The duration for reaction was fixed at 5 minutes. The reaction temperature was varied at 160°C to 300°C. C02 is added into reaction system and act as co-solvent in order to decrease the pressure. The amount of C02 added is measured in terms of volumes, which are at 0.018 m3, 0.055 m3 and 0.092 m3, respectively. Result shows that, addition of C02 in the reaction system manage to decrease the reaction pressure. The best volume of C02 addition obtained from this study was 0.018 m3 with reaction pressure 15.1 MPa and yields 85.45 w/w% of jatropha oil methyl ester (JOME) at reaction temperature of 300°C. This study shows that, the addition of C02 as cosolvent is a promising method to reduce the reaction pressure and acceptable for future studies.

Item Type: Research Report
Additional Information: RESEARCH VOTE NO: RDU090313
Uncontrolled Keywords: Bio-fuel; co-solvent (co2); Jatropha oil
Subjects: T Technology > TP Chemical technology
Depositing User: En. Mohd Ariffin Abdul Aziz
Date Deposited: 08 Mar 2023 03:44
Last Modified: 08 Mar 2023 03:44
URI: http://umpir.ump.edu.my/id/eprint/36477
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