Slow pyrolysis of paulownia wood: Effects of pyrolysis parameters on product yields and bio-oil characterization

Abstract

Pyrolysis experiments of paulownia wood (P. tomentose) were performed in a fixed-bed reactor under static and nitrogen atmospheres. The effects of the final pyrolysis temperature (623–873K), heating rate (10 and 50Kmin−1), particle size (0.224–1.8mm), and sweep gas flow rate (100–300mLmin−1) were investigated on the pyrolysis conversion and product yields. The maximum pyrolysis conversion of 77.4% was obtained at a final pyrolysis temperature of 773K. The highest liquid product yield of 54.0wt% was obtained at the pyrolysis temperature of 773K with a heating rate of 50Kmin−1, particle size of 0.425<Dp<1mm and a nitrogen flow rate of 100mLmin−1. In addition, the bio-oil and fractions of the bio-oil were examined using elemental analysis and, chromatographic and spectroscopic techniques. The empirical formula of the bio-oil with heating value of 28.6MJkg−1 was established as CH1.57O0.29. The obtained bio-oil can be considered a potential source for energy or fuels and a valuable chemical feedstock.