Thermoliquefaction of palm oil fiber was investigated using supercritical ethanol as solvent. A semicontinuous laboratory scale unit was developed to investigate the effects of temperature (300-500 degrees C), heating rate (10-30 degrees C. min(-1)) and cracking time (10-30 min) on the conversion of biomass in bio-oil. The main advantage of the proposed process is that a pure solvent is pumping through the reactor that contains the biomass, dispensing the use of biomass slurries. The yield of bio-oil ranged from 56% to 84%, depending on the experimental conditions. It was observed that an increase in working temperature led to an increase in the bio-oil production. Cracking time and heating rate variation had not shown a considerable effect on the conversion of biomass. The chemical profiles of bio-oil determined by GC/MS, indicate that at low temperature mainly sugar derivatives are produced, while at higher temperatures alcohols and phenolic are the majority compounds of the bio-oil. (C) 2017 Elsevier Ltd. All rights reserved.