N Evolution and Physiochemical Structure Changes in Chars during Co-Pyrolysis: Effects of Abundance of Glucose in Fiberboard

Abstract: The simple incineration of wood-based panels (WBPs) waste generates a significant amount of NOx, which has led to urgency in developing a new method for treating the N-containing biomass residues. This work aims to examine the N evolution and physiochemical structural changes during the co-pyrolysis of fiberboard and glucose, where the percentage of glucose in the feedstock was varied from 0% to 70%. It was found that N retention in chars was monotonically increased with increasing use of glucose, achieving ~6… Show more

“…Moreover, the co‐pyrolysis of glucose and fiberboard waste showed similar results regarding this enhanced nitrogen incorporation. [ 19 ] Besides that, the co‐pyrolysis of the microalgae Nannochloropsis sp . with bamboo increased the nitrogen distribution in biochar and biogas and reduced nitrogen species in bio‐oil in a small‐scale fixed bed reactor (2 g biomass input, fast pyrolysis 600 °C).…”

Improving Nitrogen Retention in Algal Biochar Pyrolysis by Co‐Pyrolysis with Glucose

“…Moreover, the co‐pyrolysis of glucose and fiberboard waste showed similar results regarding this enhanced nitrogen incorporation. [ 19 ] Besides that, the co‐pyrolysis of the microalgae Nannochloropsis sp . with bamboo increased the nitrogen distribution in biochar and biogas and reduced nitrogen species in bio‐oil in a small‐scale fixed bed reactor (2 g biomass input, fast pyrolysis 600 °C).…”

Improving Nitrogen Retention in Algal Biochar Pyrolysis by Co‐Pyrolysis with Glucose

Co-pyrolysis of chicken feathers and macadamia nut shells, a promising strategy to create nitrogen-enriched electrode materials for supercapacitor applications

Retention and transformation of nitrogen in hydrochars from co-hydrothermal carbonization of fiberboard and glucose