This study focused on the extraction yield of oil from Persea Americana seed using three different extraction solvents of hexane, diethylether and chloroform respectively. The Persea Americana seeds were prepared prior to extraction process thereby removing dirts and the seeds were washed, dried, crushed and ground to 600µm particle size thereby increasing surface area for oil extraction operational rate of Persea Americana seeds. The ground Persea Americana seeds were soaked for a period of 14 hours to 70 hours under ambient operating conditions. Soxhlet extractor was used in the extraction process and extracted oil was separated from solvent via distillation process. The results showed that the optimum conditions for the yield of oil was obtained at 70 hours for hexane, diethylether and chloroform extraction solvents respectively but diethylether extraction solvent showed higher percentage yield of oil in comparison with other extraction solvents. Characterization of the extracted oil from Persea Americana seeds were performed and the results depicted extracted oil physiochemical properties such as refractive index, PH value, density, specific gravity, iodine value, viscosity, saponification value etc and the results of these parameters are in tandem with other previous studies of Persea Americana seeds and within the range of acceptable value of European and United States of America standards.
Published in | American Journal of Chemical Engineering (Volume 10, Issue 4) |
DOI | 10.11648/j.ajche.20221004.12 |
Page(s) | 72-78 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2022. Published by Science Publishing Group |
Soxhlet Extraction, Persea Americana Seed, Hexane, Diethyl-Ether, Chloroform, Characterization
[1] | Joshua, A. G., Ngoshe, A. M. & Aiseudion, M. (2019). Industrial Viability Study of the Avocado Seed Oil. International Journal of Recent Innovation in Academic Research, 3, (6), 48-57. |
[2] | Evwierhoma, E. T. & Ekop, I. E. (2016). Extraction and Characterisation of Oils from Some Local Seeds. International Journal of Scientific and Engineering Research, 7, (5): 1280- 1294. |
[3] | Adaramola, B., Onigbinde, A. & Shokunbi, O. (2016). Physiochemical Properties and Antioxidant Potential of Persea Americana Seed Oil. Chemistry International, 2, (3): 168- 175. |
[4] | Segovia, F. J., Hidalgo, G. I., Villasante, J., Ramis, X. & Almanajao, M. P. (2018). Avocado Seed: A Comparative Study of Antioxidant Content and Capacity in Protecting Oil Models from Oxidation. Molecules, 23, (10), 2421-2433. |
[5] | Shiferaw, F. B. (2019). Extraction of Oil and Phenolic Retaining Agent from Avocado Seed. Environmental Analysis and Ecology Studies, 4, 1-12. |
[6] | Dagde, K. K. (2019). Extraction of Vegetable Oil from Avocado Seeds for Production of Biodiesel Journal of Applied Sciences and Environmental Management, 23, (2), 215-221. |
[7] | Flores, M., Saravia, C., Vergara, C. E., Avila, F., Valdes, H. & Ortiz-Viedma, J. (2019). Avocado Oil: Characteristics, Properties and Applications. Molecules, 24, (2172), 1-21. |
[8] | Sadiq, A. (2016). Assessment of Nigeria Sweet Orange Seed Oil for Biodiesel Production. Nigerian Journal of Tropical Engineering, 9, (1 & 2): 1-9. |
[9] | Ibrahim, I. A. A. & Yusuf, A. J. (2015). Extraction and Physicochemical Analysis of Citrus Sinesis Seed Oil (Sweet Orange). European Journal of Experimental Biology, 5, (7): 77-81. |
[10] | Sapkale, G. N., Patil, S. M., Surwase, U. S. & Bhatbhage, P. K. (2010). Supercritical Fluid Extraction. International Journal of Chemistry Science, 8, (2), 729-743. |
[11] | Mathilda, E. M. (2007). Characterization of Micro-Components of Avocado Oil Extracted with Supercritical Carbondioxide and their Effect on its Oxidative Stability. Ph. D. Thesis, Department of Food Science, University of Pretoria, South Africa. |
[12] | Keneni, Y. G., Bahiru, L. A. & Marchetti, J. M. (2021). Effects of Different Extraction Solvents on Oil Extracted from Jatropha Seeds and the Potentials of Seed Residue as a Heat Provider. Bio-Energy Research, 14, 1207-1222. |
[13] | Nde, D. B. & Foncha, A. C. (2020). Optimization Methods for the Extraction of Vegetable Oils: A Review. Processes, 8, (2), 209-230. |
[14] | Akpa, J. G., Dagde, K. K., Afolayan, J. T. & Adeloye, O. M. (2021). Simulation of an Extractor for the Extraction of Vegetable Oil from Palm Kernel. American Journal of Chemical and Biochemical Engineering, 5, (2), 41-48. |
[15] | Haynes, W. M. (2016). CRC Handbook of Chemistry and Physics. Boca Raton: CRC Publisher. |
[16] | Watts, P., Long, G. & Meek, M. E. (2004). Chloroform Concise International Assessment Document 58, World Health Organisation, Geneva, Switzerland. |
[17] | Martins, S. H. F., Pontes, K. V., Fialho, R. L. & Fakhouri, F. M. (2022). Extraction and Characterization of the Starch Present in the Avocado Seed (Persea Americana Mill) for Future Application. Journal of Agriculture and Food Research, 8, (100303), 1-10. |
[18] | Gidigbi, J. A., Osemeahon, S. A., Ngoshe, A. M. & Babanyaya, A. (2019). Modification of Polyvinyl Acetate with Hydroxylated Avocado Seed Oil as a Copolymer Binder for Possible Application in Coating Industry. International Journal of Recent Innovations in Academic Research, 3, (2): 231-244. |
[19] | Tafere, A. B. (2021). Extraction and Characterization of Oil from Avocado Peels. International Schorlarly and Scientific Reasearch and Innovation, 15, (2), 54-58. |
APA Style
Adeloye Olalekan Michael. (2022). Effects of Extraction Solvents on Oil Yield from Persea Americana Seed and Its Characterization. American Journal of Chemical Engineering, 10(4), 72-78. https://doi.org/10.11648/j.ajche.20221004.12
ACS Style
Adeloye Olalekan Michael. Effects of Extraction Solvents on Oil Yield from Persea Americana Seed and Its Characterization. Am. J. Chem. Eng. 2022, 10(4), 72-78. doi: 10.11648/j.ajche.20221004.12
@article{10.11648/j.ajche.20221004.12, author = {Adeloye Olalekan Michael}, title = {Effects of Extraction Solvents on Oil Yield from Persea Americana Seed and Its Characterization}, journal = {American Journal of Chemical Engineering}, volume = {10}, number = {4}, pages = {72-78}, doi = {10.11648/j.ajche.20221004.12}, url = {https://doi.org/10.11648/j.ajche.20221004.12}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajche.20221004.12}, abstract = {This study focused on the extraction yield of oil from Persea Americana seed using three different extraction solvents of hexane, diethylether and chloroform respectively. The Persea Americana seeds were prepared prior to extraction process thereby removing dirts and the seeds were washed, dried, crushed and ground to 600µm particle size thereby increasing surface area for oil extraction operational rate of Persea Americana seeds. The ground Persea Americana seeds were soaked for a period of 14 hours to 70 hours under ambient operating conditions. Soxhlet extractor was used in the extraction process and extracted oil was separated from solvent via distillation process. The results showed that the optimum conditions for the yield of oil was obtained at 70 hours for hexane, diethylether and chloroform extraction solvents respectively but diethylether extraction solvent showed higher percentage yield of oil in comparison with other extraction solvents. Characterization of the extracted oil from Persea Americana seeds were performed and the results depicted extracted oil physiochemical properties such as refractive index, PH value, density, specific gravity, iodine value, viscosity, saponification value etc and the results of these parameters are in tandem with other previous studies of Persea Americana seeds and within the range of acceptable value of European and United States of America standards.}, year = {2022} }
TY - JOUR T1 - Effects of Extraction Solvents on Oil Yield from Persea Americana Seed and Its Characterization AU - Adeloye Olalekan Michael Y1 - 2022/08/04 PY - 2022 N1 - https://doi.org/10.11648/j.ajche.20221004.12 DO - 10.11648/j.ajche.20221004.12 T2 - American Journal of Chemical Engineering JF - American Journal of Chemical Engineering JO - American Journal of Chemical Engineering SP - 72 EP - 78 PB - Science Publishing Group SN - 2330-8613 UR - https://doi.org/10.11648/j.ajche.20221004.12 AB - This study focused on the extraction yield of oil from Persea Americana seed using three different extraction solvents of hexane, diethylether and chloroform respectively. The Persea Americana seeds were prepared prior to extraction process thereby removing dirts and the seeds were washed, dried, crushed and ground to 600µm particle size thereby increasing surface area for oil extraction operational rate of Persea Americana seeds. The ground Persea Americana seeds were soaked for a period of 14 hours to 70 hours under ambient operating conditions. Soxhlet extractor was used in the extraction process and extracted oil was separated from solvent via distillation process. The results showed that the optimum conditions for the yield of oil was obtained at 70 hours for hexane, diethylether and chloroform extraction solvents respectively but diethylether extraction solvent showed higher percentage yield of oil in comparison with other extraction solvents. Characterization of the extracted oil from Persea Americana seeds were performed and the results depicted extracted oil physiochemical properties such as refractive index, PH value, density, specific gravity, iodine value, viscosity, saponification value etc and the results of these parameters are in tandem with other previous studies of Persea Americana seeds and within the range of acceptable value of European and United States of America standards. VL - 10 IS - 4 ER -