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Comparative catalytic efficacy of cost-effective MIL-101(Cr) based PET waste for biodiesel production

Ahmed S. Abou-Elyazed, Amira K. F. Shaban, Ahmed I. Osman, Lobna A. Heikal, Hamdy F. M. Mohamed, Walid M. I. Hassan, Ahmed M. El‐Nahas, Basem E. Keshta, Asmaa S. Hamouda

2024Current Research in Green and Sustainable Chemistry31 citationsDOIOpen Access PDF

Abstract

Polyethylene terephthalate (PET) use has increased, causing more PET trash and environmental and health issues. Disposal and burning alone cannot solve this problem. Thus, PET recovery methods with low byproducts are the priority. The recycling rate is still below 30%, so different cleaning methods are being investigated. Therefore, studies have focused on extracting terephthalic acid from PET bottles for MOF synthesis to reduce their cost of production. Herein, MIL-101(Cr) was synthesized from PET bottles and used as a solid catalyst for oleic acid esterification with methanol to produce methyl oleate (biodiesel), an alternative energy source to fossil fuels—the highest biodiesel yields at 1:39 M ratio of oleic acid to MeOH, 6 wt% loading, 65 °C, and 4 h reactions were attained at 86.9 and 80% for MIL-101(Cr) on a pristine and scrap basis, respectively. The kinetic study revealed that activation energies were 25.27 kJ/mol and 28.3 kJ/mol for original and waste-derived MIL-101(Cr). The waste-derived MIL-101(Cr) was reused three times while five-time cycles for the original MIL-101(Cr).

Topics & Concepts

Biodiesel productionBiodieselProduction (economics)Waste managementCatalysisEnvironmental scienceBusinessChemistryEconomicsEngineeringOrganic chemistryMicroeconomicsBiodiesel Production and ApplicationsExtraction and Separation ProcessesCatalysis and Hydrodesulfurization Studies
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