Litcius/Paper detail

Effective hydrodeoxygenation bio-oil via natural zeolite supported transition metal oxide catalyst

Junifa Layla Sihombing, Herlinawati Herlinawati, Ahmad Nasir Pulungan, Lisnawaty Simatupang, Rahayu Rahayu, Ary Anggara Wibowo

2023Arabian Journal of Chemistry26 citationsDOIOpen Access PDF

Abstract

Bio-oil from biomass pyrolysis is promising to be used as a sustainable biofuel and high-value-added chemical. However, the presence of high acid, water, and oxygenate causes corrosive properties, low higher heating value (HHV), and instability of the bio-oil component. Therefore, refining the bio-oil is essential to improve its quality. In this study, we introduced natural zeolite (HZ) impregnated with transition metal oxide (TMO) to refine the bio-oil using the hydrodeoxygenation method (HDO) at various catalyst ratios and temperatures. We find that ZnO/HZ 5% wt. shows the best catalytic performance, with the conversion of organic phase reaching ∼ 50%. The refined bio-oil from Fe2O3, ZnO, and CuO has high-quality physicochemical properties with carbon, oxygen, water level, and HHV values are 37–52%, 40–53%, 8–27%, and 17–21 MJ/kg, respectively. This result represents a high catalytic performance for the hydrodeoxygenation process of bio-oil using natural zeolite-based transition metal oxide for better and low-cost biofuel production.

Topics & Concepts

HydrodeoxygenationChemistryCatalysisBiofuelPyrolysisZeoliteTransition metalPyrolysis oilOxideChemical engineeringCarbon fibersOrganic chemistryWaste managementMaterials scienceComposite numberEngineeringComposite materialSelectivityCatalysis and Hydrodesulfurization StudiesBiodiesel Production and ApplicationsThermochemical Biomass Conversion Processes