Xing Xie, Mangmang Li, Dan Lin, Bin Li, C. Li, Dongjing Liu
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引用次数: 0
摘要
最近,盐助热解因其简便的操作以及良好的结构和化学特性,被认为是制备生物炭的一种新兴而有效的方法。在这项工作中,通过在 500-600 °C 的空气中加热共晶盐(Li2CO3 + K2CO3)中的竹粉来制备生物炭(MBCx)。采用多种技术来研究竹生物炭的理化性质。研究了加热温度与竹生物脆的结构特征和二氧化碳吸收之间的相关性。结果表明,加热温度对竹生物脆的理化性质有显著影响。随着加热温度的升高,竹生物碳渣的缺陷结构逐渐增加,尤其是当加热温度达到 600 ℃ 时。MBCx 生物炭明显优于在不加盐的氮气流中热解制备的传统竹生物炭。在共晶盐中热解竹子使生物炭具有更高的氧含量和更多的碳缺陷,这可能是它们具有更好的二氧化碳捕集活性的原因。
CO2 Adsorption by Bamboo Biochars Obtained via a Salt-Assisted Pyrolysis Route
Recently, salt-assisted pyrolyzation has been deemed an emerging and efficient method for the preparation of biochars due to its facile operation as well as its good structural and chemical properties. In this work, biochars (MBCx) are prepared by heating bamboo powders in eutectic salts (Li2CO3 + K2CO3) at 500–600 °C in the air. Multiple technologies are employed to examine the physiochemical properties of bamboo biochars. Correlations between heating temperature and structural features and carbon dioxide uptakes of bamboo biochars have been investigated. The results show that heating temperature has a significant influence on the physicochemical properties of bamboo biochars. With the elevation of the heating temperature, the defect structures of bamboo biochars gradually ascend, especially when the heating temperature reaches 600 °C. MBCx biochars visibly exceed conventional bamboo biochar prepared via pyrolyzation in a nitrogen stream free of salt addition. Pyrolysis of bamboo in eutectic salts endows biochars with higher oxygen content and more carbon defects, which likely accounts for their better CO2 capture activities.
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