High-Performance of Catalyst Synthesized from Waste Can Aluminum and Rice Husk Silica for Conversion Coconut Oil into Biodiesel

Ganjar Andhulangi; Wega Trisunaryanti; Wasinton Simanjuntak; Kamisah Delilawati Pandiangan; I Ilim; H Herliana; K Khasandra

doi:10.55549/epstem.1753116

Conference Paper

Year 2025, Volume: 34, 31 - 42, 01.08.2025

Ganjar Andhulangi Wega Trisunaryanti Wasinton Simanjuntak Kamisah Delilawati Pandiangan I Ilim H Herliana K Khasandra

https://doi.org/10.55549/epstem.1753116

Abstract

References

Andhulangi, G., Trisunaryanti, W., Simanjuntak, W., Pandiangan, K.D., Ilim, I., Herliana, H., & Khasandra, K. (2025). High-performance of catalyst synthesized from waste can aluminum and rice husk silica for conversion coconut oil into biodiesel. The Eurasia Proceedings of Science, Technology, Engineering and Mathematics (EPSTEM), 34, 31-42.

High-Performance of Catalyst Synthesized from Waste Can Aluminum and Rice Husk Silica for Conversion Coconut Oil into Biodiesel

Year 2025, Volume: 34, 31 - 42, 01.08.2025

Ganjar Andhulangi Wega Trisunaryanti Wasinton Simanjuntak Kamisah Delilawati Pandiangan I Ilim H Herliana K Khasandra

https://doi.org/10.55549/epstem.1753116

Abstract

The development of biodiesel is one of the extensive research projects that have been undertaken in response to the diminishing fossil energy reserves, air pollution, and climate change. This work introduces catalysts synthesized from waste can aluminum and rice husk silica (AS) with Si/Al molar ratios of 10, 20, and 30. The catalysts were synthesized by the hydrothermal process in an autoclave at 100 ºC for 24 h, followed by calcined at 550 °C for 5 h, and evaluated as catalysts for biodiesel (fatty acid methyl esters, FAMEs) production from coconut oil. The AS-10 catalyst demonstrates highly performance, with 99.57% yield under operational conditions (10 wt.% catalyst, 1:2 oil-to-methanol ratio, 60 °C, 6 h). In addition, the catalyst has 99.69% FAME selective, with biodiesel that most closely matched the fatty acid composition of coconut oil. For the characteristic, this catalyst exhibits amorphous phase and a small average crystal size, as demonstrated by the XRD patterns and SEM images. The FTIR spectra after pyridine absorption qualitatively shows the presence of Brønsted (1546 cm-1) and Lewis (1457 cm-1) acid sites on this catalyst. High-performance catalytic activity is usually attributed to these characteristics, which may be able to enhance the adsorptivity towards triglycerides of coconut oil. Hence, these findings suggest the prospective use of the catalyst in the biodiesel production derived from coconut oil.

Keywords

Biodiesel , Coconut oil , Catalyst , Waste can aluminum (WCA) , Rice husk silika

References

Andhulangi, G., Trisunaryanti, W., Simanjuntak, W., Pandiangan, K.D., Ilim, I., Herliana, H., & Khasandra, K. (2025). High-performance of catalyst synthesized from waste can aluminum and rice husk silica for conversion coconut oil into biodiesel. The Eurasia Proceedings of Science, Technology, Engineering and Mathematics (EPSTEM), 34, 31-42.

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Details

Primary Language	English
Subjects	Chemical Engineering (Other)
Journal Section	Articles
Authors	Ganjar Andhulangi Wega Trisunaryanti Wasinton Simanjuntak Kamisah Delilawati Pandiangan I Ilim H Herliana K Khasandra
Early Pub Date	August 1, 2025
Publication Date	August 1, 2025
Submission Date	February 7, 2025
Acceptance Date	March 12, 2025
Published in Issue	Year 2025 Volume: 34

Cite

APA	Andhulangi, G., Trisunaryanti, W., Simanjuntak, W., … Pandiangan, K. D. (2025). High-Performance of Catalyst Synthesized from Waste Can Aluminum and Rice Husk Silica for Conversion Coconut Oil into Biodiesel. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 34, 31-42. https://doi.org/10.55549/epstem.1753116