LCA Analysis of Biocarbon Pellet Production to Substitute Coke

Lorenzo Riva, H. K. Nielsen, Therese Videm Buø, Hewen Zhuo, Q. Yang, Haiping Yang, Ø. Skreiberg, Liang Wang, P. Bartocci, M. Barbanera, F. Fantozzi
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引用次数: 4

Abstract

Biocarbon is a promising alternative to fossil reductants for decreasing greenhouse gas emissions and increasing sustainability of the metallurgical industry. In comparison to conventional reductants (i.e., coke and coal), biocarbon has low density, poor mechanical strength and high reactivity. Densification is an efficient way to upgrade biocarbon and improve its undesirable properties. In this study, woody biocarbon is compressed into pellets using pyrolysis oils as a binder. In fact both pyrolysis oils and charcoal can be produced through the slow pyrolysis process and represent respectively the liquid product and the solid product. Pyrolysis gases can be used to sustain the process. Mass and energy balance of the biocarbon pelletization process are calculated and used to implement a LCA analysis. Final use of the produced biocarbon will be in the silicon industry in Norway.
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生物炭球团替代焦炭的LCA分析
生物碳是化石还原剂的一个很有前途的替代品,可以减少温室气体排放,提高冶金工业的可持续性。与传统还原剂(如焦炭和煤)相比,生物炭密度低,机械强度差,反应性高。致密化是提高生物炭性能和改善其不良性能的有效途径。在这项研究中,木质生物碳被压缩成颗粒,使用裂解油作为粘合剂。热解油和木炭实际上都可以通过慢热解过程产生,分别代表液体产物和固体产物。热解气体可以用来维持这一过程。计算了生物炭制粒过程的质量和能量平衡,并用于实现LCA分析。生产的生物碳的最终用途将用于挪威的硅工业。
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