Animal Bone Ash Catalyzed Upgrading of Mango Seed Oil into Biodiesel through Heterogeneous Transesterification

International Journal of Science for Global Sustainability Pub Date : 2023-08-09 DOI:10.57233/ijsgs.v9i2.452

A Galadima, A. M. Lawal, R. Muhammad, M. Abubakar, A. Lawal, J.M. Nahuche, S. Mustapha, S. S. Abdussalam

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Abstract

Biodiesel production via catalytic transesterification of non-edible oils derived from plants is one of the priority areas considered by researchers as an approach to reduce the over-dependence on fossil fuels. However, the development of most appropriate catalyst system is still under investigation. The current study therefore investigated the potentials of bone ashes derived from cow, camel and goat as catalytic materials for upgrading mango seed oils into biodiesel under a range of reaction conditions. Irrespective of the bone ash type, the XRF data revealed the presence of CaO, P2O5, SiO2, Al2O3, K2O, Na2O, MgO, TiO2 and Fe2O3. Among the nine oxides, CaO and P2O5 were found to play a competitive role during the upgrading reaction. However, reactions influenced by active basic sites in CaO were very favourable and accounted for the production of high biodiesel yields reaching maximum at ~94.5%. Further studies on properties characterization showed the produced methyl esters to have properties in line with those approved internationally for the designing of B100 and other grades of biodiesel.

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动物骨灰催化芒果籽油多相酯交换制生物柴油

通过植物非食用油的催化酯交换反应生产生物柴油是研究人员认为减少对化石燃料过度依赖的优先领域之一。然而，开发最合适的催化剂体系仍在研究中。因此，本研究研究了牛、骆驼和山羊的骨灰作为催化材料在一系列反应条件下将芒果籽油转化为生物柴油的潜力。无论煤灰类型如何，XRF数据均显示CaO, P2O5, SiO2, Al2O3, K2O, Na2O, MgO, TiO2和Fe2O3的存在。在9种氧化物中，CaO和P2O5在升级反应中起竞争作用。然而，在CaO中受活性碱位影响的反应是非常有利的，并占高生物柴油产率的生产，最高可达~94.5%。进一步的性能表征研究表明，所制备的甲酯具有符合国际上认可的用于B100和其他等级生物柴油设计的性能。

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International Journal of Science for Global Sustainability

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