Conversion of waste frying oil into biodiesel using recoverable nanocatalyst based on magnetic graphene oxide supported ternary mixed metal oxide nanoparticles

The magnetic graphene oxide (GO) supported with heterogeneous ternary mixed metal oxide (MMO) was used as nanocatalyst to enhance the conversion of waste frying oil (WFO) triglycerides to biodiesel via esterification process. In this regard, acidic MGO was modified with three basic metal cations of cerium, zirconium, and strontium oxides to produce heterogeneous MGO@MMO nanocatalyst. The nanocatalyst was characterized by FESEM, TEM, EDX and FTIR. The influence of different parameters such as catalyst material ratio, methanol to oil ratio, contact time, and reaction temperature was studied. Based on the results of effecting parameters, the MGO@MMO nanocatalyst converted WFO to biodiesel with a yield 94%, a reaction time of 90 min, methanol to oil ratio (8:1), and a temperature of 60 degrees C. Esterification mechanism indicated the MGO@MMO nanocatalyst having both binary Bronsted acid-base sites that increased the conversion yields as compared to MGO and MMO at low temperatures.

Automated summary

The use of magnetic graphene oxide supported with heterogeneous ternary mixed metal oxide as a nanocatalyst significantly enhanced the conversion of waste frying oil triglycerides to biodiesel, achieving a yield of 94%. The nanocatalyst exhibited excellent catalytic performance in the esterification process.