Carbon Footprint of Biochar from Forest Harvest Residues as a Substitute for Coal during Steel Production

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Abstract

Reducing industry’s reliance on coal has been a main objective in achieving short- to mid-term climate targets. Biochar, a pyrolysis byproduct, has the potential to substitute coal and can be produced using numerous feedstocks. Forest harvest residues are an abundant resource in Ontario, Canada, and have been shown to be reliable feedstocks for pyrolysis. The goal of this study was to quantify the carbon footprint of biochar from forest harvest residues for use in the steel industry. Biochar created from forest harvest residues from slash piles that were originally meant to undergo controlled burn reduced CO2-equivalent (CO2eq) emissions (-3.1 kgCO2eq kgsteel–1) immediately relative to the business-as-usual scenario. However, when using forest harvest residues from slash piles that would normally decay over time in the forest, the time to carbon neutrality was 75 years. On the other hand, time to carbon neutrality was longer than 100 years when using forest harvest residues collected from the forest floor where they are scattered during cut-to-length/tree-length harvesting.

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Desjardins, S. M., Ter-Mikaelian, M. T., & Chen, J. (2025). Carbon Footprint of Biochar from Forest Harvest Residues as a Substitute for Coal during Steel Production. ACS Sustainable Resource Management, 2(2), 243–255. https://doi.org/10.1021/acssusresmgt.4c00263

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