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Sustainable biodiesel generation through catalytic transesterification of waste sources: a literature review and bibliometric survey

Walid Nabgan, Aishah Abdul Jalil, Bahador Nabgan, Arvind H. Jadhav, Muhammad Ikram, Anwar Ul‐Hamid, Mohamad Wijayanuddin Ali, N.S. Hassan

2022RSC Advances75 citationsDOIOpen Access PDF

Abstract

the transesterification process, which is environmentally feasible due to its low-emission diesel substitute. Significant issues arising with biodiesel production are the cost of the processes, which has stuck its sustainability and the applicability of different resources. In this article, the common biodiesel feedstock such as edible and non-edible vegetable oils, waste oil and animal fats and their advantages and disadvantages were reviewed according to the Web of Science (WOS) database over the timeframe of 1970-2020. The biodiesel feedstock has water or free fatty acid, but it will produce soap by reacting free fatty acids with an alkali catalyst when they present in high portion. This reaction is unfavourable and decreases the biodiesel product yield. This issue can be solved by designing multiple transesterification stages or by employing acidic catalysts to prevent saponification. The second solution is cheaper than the first one and even more applicable because of the abundant source of catalytic materials from a waste product such as rice husk ash, chicken eggshells, fly ash, red mud, steel slag, and coconut shell and lime mud. The overview of the advantages and disadvantages of different homogeneous and heterogeneous catalysts is summarized, and the catalyst promoters and prospects of biodiesel production are also suggested. This research provides beneficial ideas for catalyst synthesis from waste for the transesterification process economically, environmentally and industrially.

Topics & Concepts

BiodieselTransesterificationRenewable energyFossil fuelBiodiesel productionSustainable productionEnvironmental scienceSustainable energyWaste managementBiofuelProduction (economics)Natural resource economicsCatalysisEngineeringChemistryEconomicsOrganic chemistryElectrical engineeringMacroeconomicsBiodiesel Production and ApplicationsCatalysis and Hydrodesulfurization StudiesHybrid Renewable Energy Systems
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