Methoxy-functionalized mesostructured stable carbon catalysts for effective biodiesel production from non-edible feedstock
The nano-architectured Ca(OCH3)2/AC catalyst was prepared through hydrothermal process. In this work, the controlled structural growth and morphology of nano-architectured Ca(OCH3)2/AC catalyst were reported and their conversion activity from non-edible oil source (crude jatropha oil) to biodiesel p...
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| Main Authors: | , , , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Elsevier
2018
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| Online Access: | http://psasir.upm.edu.my/id/eprint/74954/1/Methoxy-functionalized%20mesostructured%20stable%20carbon%20catalysts%20for%20effective%20biodiesel%20production%20from%20non-edible%20feedstock.pdf http://psasir.upm.edu.my/id/eprint/74954/ |
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| Summary: | The nano-architectured Ca(OCH3)2/AC catalyst was prepared through hydrothermal process. In this work, the controlled structural growth and morphology of nano-architectured Ca(OCH3)2/AC catalyst were reported and their conversion activity from non-edible oil source (crude jatropha oil) to biodiesel production was also evaluated in this study. Remarkable difference in catalytic activity for biodiesel production among these samples was observed. It shows that the catalytic properties of the hydrothermal synthesized catalyst was improved by exposing the catalytic active OCH3 predominantly on the surface of catalyst. The 0.4-OMe/AC catalyst with methanol/oil molar ratio of 12:1, agitation speed of 600 rpm and 3 wt% of catalyst provided maximum biodiesel yield of 98.65% at 60 °C for 1 h reaction time. The catalyst exhibited outstanding stability where negligible Ca2+ leaching was detected and the recovered catalyst was reused in 8 successive cycles without significant loss in activity. Therefore, this kind of bimodal porosity catalyst is said to exhibit very high activity, stability, and recyclability, which entailed potential saving and affordable biodiesel production possibilities. |
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