Effect of carrier gas during pyrolysis on the persistence and bioavailability of polycyclic aromatic hydrocarbons in biochar-amended soil

Abstract

In this study the persistence (based on extractable, C_tot) and bioavailability (based on freely dissolved content, C_free) of polycyclic aromatic hydrocarbons (PAHs) in biochar-amended soil was investigated. Biochar produced at 500 or 700 °C from sewage sludge (BC) or sewage sludge and willow (W) mixture (BCW) in an atmosphere of nitrogen (N₂) or carbon dioxide (CO₂) was evaluated. The biochars were applied to the real soil (podzolic loamy sand) at a dose of 2% (w/w). The content of C_tot and C_free PAHs was monitored for 180 days. The biochar production conditions determined the C_tot and C_free PAHs in the soil. A change of carrier gas from N₂ to CO₂ caused an increase in C_tot PAH losses in the soil from 19 to 75% for the biochar produced from SL and from 49 to 206% for the co-pyrolyzed biochar. As regards C_free PAHs, the change from N₂ to CO₂ increased the losses of C_free PAHs only for the biochar derived from SL at a temperature of 500 °C (by 21%). In the soil with the other biochars (produced at 700 °C from SL as well as at 500 and 700 °C from SL/W), the C_free increased from 17 to 26% compared to the same biochars produced in an atmosphere of N₂.

Keywords: Biomass; Conditions; PAHs; Sewage sludge; Willow.