Abstract
The synthesis of a sulfated zirconia catalyst and its modification with Ni metal was carried out and applied in the hydrocracking of waste cooking oil into biogasoline. The SO4/ZrO2 (SZ) catalyst was synthesized via a hydrothermal process using ZrOCl2·8H2O as a precursor, followed by sulfation using (NH4)2SO4 solution. The catalyst was calcined at a temperature of 600 °C. The obtained SZ catalyst was refluxed in aqueous solutions of Ni(NO3)2 with various Ni loadings (1, 2, and 3 wt% Ni), followed by reducing hydrogen gas at 400 °C to yield Ni/SZ catalysts. The impregnation of Ni on SO4/ZrO2 led to an increase in catalyst acidity, as well as their activity and selectivity for the hydrocracking process. Among ZrO2 and the synthesized catalysts, 1% Ni/SZ has the highest acidity level. The hydrocracking process was performed at 450 °C. The 1% Ni/SZ catalyst was able to selectively produce the gasoline fraction, with the conversion reaching 70.28% gasoline from 80.28% for the total liquid products. As a result, the catalyst was shown to be acceptable for industrial-scale applications.
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