AbstractExhaustion of petroleum resources is seriously accelerating, hence, it is crucial to find renewable energies and change the global energy consumption structure. Biomass energy is the only carbon ‐ containing energy currently available and is irreplaceable in the preparation of fuels and chemicals. This study focuses on the transformation of furfuryl alcohol to ethyl levulinic acid ester using our prepared catalyst consisting of ionic liquid on polystyrene microspheres. The catalyst was characterized by IR, TG, XRD, BET and XPS techniques. In the presence of our catalyst, the conversion of furfuryl alcohol and ethyl levulinic acid yield was 98.54 % and 92.41 %, respectively. Repeated experiments showed that the acidic sites on the catalyst were occupied, slightly decreasing catalytic performance. However, after soaking and washing in concentrated sulfuric acid the catalytic activity was recovered, indicating immobilization on catalyst's surface and its stability during the reaction.