Numerical investigations of biomass pyrolysis with partial oxidation in a drop tube reactor

This study relates to 2D numerical calculations of fast pyrolysis with partial oxidation of pine and pine bark in a drop-tube reactor at 550 degrees C. Numerical studies were supported by experiments using thermogravimetric analysis of pine, pine bark, and pure lignin. The study involved 3 atm of pyrolysis: pure nitrogen, 95% nitrogen/5% oxygen, and 90% nitrogen/10% oxygen v/v. Numerical calculations were performed using Euler-Lagrange multiphase theory. According to the results, it was possible to linearly reduce the amount of char from 49% to 34% for pine and from 57% to 36% for pine bark, as the oxygen content in the carrier gas increased from 0 to 10% v/v. Furthermore, the addition of oxygen decreased the required energy for pyrolysis from 1.55 to 1.1 MJ/ kg for pine and from 1.6 to 1.1 MJ/kg for pine bark at the maximum considered oxygen content. Simultaneously, owing to the increasing oxygen content in the carrier gas, gaseous products were promoted, and the mass ratio of CO to CO2 was almost the same for all cases and was approximately 0.6.

Automated summary

This study conducted 2D numerical calculations of fast pyrolysis with partial oxidation of pine and pine bark using a drop-tube reactor at 550 degrees C. Experimental verification was done through thermogravimetric analysis of the materials involved. The results showed that increasing oxygen content in the carrier gas led to a linear reduction in char content and a decrease in required energy for pyrolysis.