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Naturally Nitrogen-Doped Biochar Made from End-of-Life Wood Panels for SO2 Gas Depollution.

Authors :
Hachicha, Hamdi
Dia, Mamadou
Bouafif, Hassine
Koubaa, Ahmed
Khlif, Mohamed
Braghiroli, Flavia Lega
Source :
Journal of Renewable Materials; 2023, Vol. 11 Issue 11, p3807-3829, 23p
Publication Year :
2023

Abstract

Reconstituted wood panels have several advantages in terms of ease of manufacturing, but their shorter life span results in a huge amount of reconstituted wood panels being discarded in sorting centers yearly. Currently, the most common approach for dealing with this waste is incineration. In this study, reconstituted wood panels were converted into activated biochar through a two-step thermochemical process: (i) biochar production using pilot scale fast pyrolysis at 250 kg/h and 450°C; and (ii) a physical activation at three temperatures (750°C, 850°C and 950°C) using an in-house activation furnace (1 kg/h). Results showed that the first stage removed about 66% of the nitrogen from the wood panels in the form of NO, NH<subscript>3</subscript>, and trimethylamine, which were detected in small amounts compared to emitted CO<subscript>2</subscript>. Compared to other types of thermochemical conversion methods (e.g., slow pyrolysis), isocyanic acid and hydrogen cyanide were not detected in this study. The second stage produced activated biochar with a specific surface area of up to 865 m²/g at 950°C. The volatile gases generated during activation were predominantly composed of toluene and benzene. This two-step process resulted in nitrogen-rich carbon in the form of pyrrolic and pyridinic nitrogen. Activated biochars were then evaluated for their SO<subscript>2</subscript> retention performance and showed an excellent adsorption capacity of up to 2140 mg/g compared to 65 mg/g for a commercial activated carbon (889 m²/g). End-of-life reconstituted wood panels and SO<subscript>2</subscript> gas are problematic issues in Canada where the economy largely revolves around forestry and mining industries. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
21646325
Volume :
11
Issue :
11
Database :
Complementary Index
Journal :
Journal of Renewable Materials
Publication Type :
Academic Journal
Accession number :
173426612
Full Text :
https://doi.org/10.32604/jrm.2023.029454