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Research Article
A Preliminary Study on Biodiesel Production Using Waste Cooking Oil as the Feedstock
Athulya Ayyappan1
Shamili V K2
Prof. Dr. C.C. Harilal3
123Department of Environmental science, University of Calicut, Kerala, India.
Published Online: January-February 2023
Pages: 82-92
Cite this article
No DOIReferences
1. Abdullah, N. H., Hasan, S. H., & Yusoff, N. R. M. (2013). Biodiesel production based on waste cooking oil (WCO). International
Journal of Materials Science and Engineering, 1(2), 94-99.
2. Banani, R., Youssef, S., Bezzarga, M., & Abderrabba, M. (2015). Waste frying oil with high levels of free fatty acids as one of the
prominent sources of biodiesel production. J. Mater. Environ. Sci, 6(4), 1178-1185
3. Christensen, E., & McCormick, R. L. (2014). Long-term storage stability of biodiesel and biodiesel blends. Fuel processing
technology, 128, 339-348.
4. Ding, J., Xia, Z., & Lu, J. (2012). Esterification and deacidification of a waste cooking oil (TAN 68.81 mg KOH/g) for biodiesel
production. Energies, 5(8), 2683-2691.
5. Kamaronzaman, M. F. F., Kahar, H., Hassan, N., Hanafi, M. F., & Sapawe, N. (2020). Analysis of biodiesel product derived from
waste cooking oil using fourier transform infrared spectroscopy. Materials Today: Proceedings, 31, 329-332.
6. Kebede, Y. (2011). SCHOOL OF GRADUATE STUDIES FACULTY OF NATURAL SCIENCE ENVIRONMENTAL SCIENCE
PROGRAM (Doctoral dissertation, Addis Ababa University).
7. Rabelo, Sabrina & Ferraz, Vany & Oliveira, Leandro & Franca, Adriana. (2015). FTIR Analysis for Quantification of
Fatty Acid Methyl Esters in Biodiesel Produced by Microwave-Assisted Transesterification. International Journal of Environmental
Science and Development. 6. 964-969. 10.7763/IJESD.2015.V6.730.
8. Saydut, A., Kafadar, A. B., Tonbul, Y., Kaya, C., Aydin, F., & Hamamci, C. (2010). Comparison of the biodiesel quality produced
from refined sunflower (Helianthus annuus L) oil and waste cooking oil. Energy exploration & exploitation, 28(6), 499-512.
9. Thilakarathne, D., Miyuranga, K. V., Arachchige, U. S. P. R., Weerasekara, N. A., & Jayasinghe, R. A. (2021). Production of biodiesel
from waste cooking oil in laboratory scale: a review. Int. J. Sci. Eng. Sci, 5(6), 28-34.
Journal of Materials Science and Engineering, 1(2), 94-99.
2. Banani, R., Youssef, S., Bezzarga, M., & Abderrabba, M. (2015). Waste frying oil with high levels of free fatty acids as one of the
prominent sources of biodiesel production. J. Mater. Environ. Sci, 6(4), 1178-1185
3. Christensen, E., & McCormick, R. L. (2014). Long-term storage stability of biodiesel and biodiesel blends. Fuel processing
technology, 128, 339-348.
4. Ding, J., Xia, Z., & Lu, J. (2012). Esterification and deacidification of a waste cooking oil (TAN 68.81 mg KOH/g) for biodiesel
production. Energies, 5(8), 2683-2691.
5. Kamaronzaman, M. F. F., Kahar, H., Hassan, N., Hanafi, M. F., & Sapawe, N. (2020). Analysis of biodiesel product derived from
waste cooking oil using fourier transform infrared spectroscopy. Materials Today: Proceedings, 31, 329-332.
6. Kebede, Y. (2011). SCHOOL OF GRADUATE STUDIES FACULTY OF NATURAL SCIENCE ENVIRONMENTAL SCIENCE
PROGRAM (Doctoral dissertation, Addis Ababa University).
7. Rabelo, Sabrina & Ferraz, Vany & Oliveira, Leandro & Franca, Adriana. (2015). FTIR Analysis for Quantification of
Fatty Acid Methyl Esters in Biodiesel Produced by Microwave-Assisted Transesterification. International Journal of Environmental
Science and Development. 6. 964-969. 10.7763/IJESD.2015.V6.730.
8. Saydut, A., Kafadar, A. B., Tonbul, Y., Kaya, C., Aydin, F., & Hamamci, C. (2010). Comparison of the biodiesel quality produced
from refined sunflower (Helianthus annuus L) oil and waste cooking oil. Energy exploration & exploitation, 28(6), 499-512.
9. Thilakarathne, D., Miyuranga, K. V., Arachchige, U. S. P. R., Weerasekara, N. A., & Jayasinghe, R. A. (2021). Production of biodiesel
from waste cooking oil in laboratory scale: a review. Int. J. Sci. Eng. Sci, 5(6), 28-34.
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