海藻生物炭用于铁合金生产的可行性

IF 2.5 3区材料科学 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Journal of Sustainable Metallurgy Pub Date : 2024-06-17 DOI:10.1007/s40831-024-00863-w

Samuel Senanu, Judit Sandquist, Jorunn Skjermo, Stein Rørvik, Magnus Windfeldt

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引用次数: 0

摘要

从挪威海岸线种植的海藻（特别是糖海带）中提取的生物炭已被研究作为金属工业的一种可能的生物碳源，以减少对陆地生物质的依赖。生物质在热解前需要进行预处理，以减少水分和灰分含量，预处理的方法是水洗和酸洗，然后干燥。在 550 °C 的温度下进行热解后，得到了三种类型的生物炭。对三批生物炭的特性分析表明，在水和酸洗过程中对海藻进行的预处理对去除灰分起着重要作用。例如，铁合金工业需要大量木质生物质来替代化石煤，因此用海带生物炭替代部分木质生物质会产生重大影响。考虑到灰分和固定碳含量，水洗结合酸洗的效果最好。海藻生物炭的微观结构分析表明，海藻生物炭是一种多孔性材料，晶体结构与木炭相似，但结晶度较低。

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Feasibility of Biochar from Seaweed for Ferroalloy Production

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Feasibility of Biochar from Seaweed for Ferroalloy Production

Biochar from seaweed, specifically sugar kelp, cultivated on the Norwegian coastline has been investigated as a possible biocarbon source for the metal industry to reduce the dependency on terrestrial biomass. Pre-processing of the biomass prior to pyrolysis is needed to reduce the water and ash content and was performed by water and acid washing followed by drying. The three types of biochar were obtained after pyrolysis at a temperature of 550 °C. Characterization of the three batches of biochars showed that pre-processing of the seaweed as was done during the water and acid washing, plays an important role on the removal of ash content. Due to the enormous amount of woody biomass needed for example in the ferroalloy industry to replace fossil coal, replacing only parts of the woody biomass with kelp biochar could have a significant impact. Water washing combined with acid washing had the best results considering the ash and fixed carbon contents. Microstructural analysis of the seaweed biochars showed a very porous material with the crystal structure resembling that of charcoal, albeit a lower degree of crystallinity.

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来源期刊

Journal of Sustainable Metallurgy Materials Science-Metals and Alloys

CiteScore

4.00

自引率

12.50%

发文量

151

期刊介绍： Journal of Sustainable Metallurgy is dedicated to presenting metallurgical processes and related research aimed at improving the sustainability of metal-producing industries, with a particular emphasis on materials recovery, reuse, and recycling. Its editorial scope encompasses new techniques, as well as optimization of existing processes, including utilization, treatment, and management of metallurgically generated residues. Articles on non-technical barriers and drivers that can affect sustainability will also be considered.