World s energy demand is constantly growing, and this scenario raises the concern about environmental impacts, many of them resulting from the constant manipulation of fossil fuels and their excessive use. In this context, the study of biomass pyrolysis presents an alternative for the direct production of heat that can be used in sustainable thermoeletric plants. To this end, a research has been carried out on the possibility of taking advantage of recycled wood as the main biomass of this process, an investigation that has been carried out along with a company in the field of wood recycling. This work presents the characterization of a recylced and a typical Brazilian eucalyptus wood with the purpose of proving their chemical similarity. Therefore, analysis of Scanning Electron Microscopy with Energy Dispersive Spectroscopy (SEM/EDS), X-ray diffraction (XRD) and Fourier-transform infrared spectroscopy (FTIR) was performed. Thermogravimetric (TG) experiments were carried out with slow pyrolysis of recycled wood and eucalyptus wood, from wich were identified thermal events, characterized by mass losses. To verify a possible oxidative effect of the compounds Fe2CoO4 and Co3O4, slow pyrolysis of a mixture of the recycled wood with each of the oxides was also performed, and thermal events that were not present in the experiments with the pure wood were identified. The main thermal events were kinetic investigated with model-free methods wich allows the determination of the activation energy without the need of a reaction order pre-stipulated. In this workk were tested the Kissinger (KS) and Kissinger-Akahira-Sunose (KAS) model-free methods and the TG data of five different heating rate were collected until 1100 Celsius degrees. For the most relevant thermal event, wich occurs from 200 to 390 Celsius degrees (for recycled wood and its mixture with the oxides) the adjustment of both methods was fine and accordance with literature.