Markedly Different Decomposition Temperature and Products of Biomass Pyrolysis at Low Temperature—Differentiation of Acids in Their Effects on Pretreatment

Peifang Yan, Xiumei Liu, Zhanwei Xu, Zong Zhang
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引用次数: 4

Abstract

Pine as a softwood and poplar as a hardwood pretreated with hydrochloric acid (HCl), phosphoric acid (H3PO4), and hypophosphorous acid (H3PO2) are studied for the pyrolytic properties and products in thermogravimetry (TG) and fixed bed reactor. The pyrolysis performances are pronouncedly distinguished due to the compositional and structural changes induced by the acid pretreatments. Reduction in the mineral content in the biomass feedstocks by pretreatment with the acids results in significant changes in the pyrolytic products. The residual P in the H3PO2-pretreated biomass apparently catalyzed the biomass deeper dehydration in pyrolysis compared to the other two mineral acids. TG analysis shows a shift of the temperature of maximum mass loss (Tmax) by more than 40 °C to lower temperature in the decomposition of the H3PO2-pretreated biomass from that of the untreated and the HCl- and H3PO4-pretreated biomass. Inspired by the striking differences in TG profiles of biomass pretreated by the three acids, thermal pyrolysis of pretreated biomass was carried out in a fixed bed reactor aimed at producing biochemicals at low temperatures (330 °C and 400 °C). The liquid products obtained from the fixed bed reactor show remarkably different major anhydrosugars as a result of pretreatment by the three acids. While phenolics dominate in the collected pyrolysis liquid from untreated biomass samples, biomass pretreated with all three acids results in substantially reduced phenolics in the bio-oils. The reduction in phenolic compounds in the bio-oil may be attributed to the reduction in mineral content in the feedstock. Consequently, the yields of anhydrosugars, mainly levoglucosan (LG) and levoglucosenone (LGO) are increased. LG yields of 20.9–28.5% from the cellulose content are obtained from HCl- and H3PO4-pretreated pine/poplar, with very low LGO yield (less than 1.7%). However, H3PO2-pretreated biomass is selective to produce LGO, especially at 330 °C. LGO yields of 7.4% and 6.7% are obtained from H3PO2-pretreated pine and poplar, respectively.
生物质低温热解分解温度和产物的显著差异——酸的分化对预处理的影响
用热重法(TG)和固定床反应器研究了用盐酸(HCl)、磷酸(H3PO4)和次磷酸(H3PO2)预处理松木和杨木的热解性能和产物。由于酸预处理引起的成分和结构变化,热解性能明显不同。通过酸预处理降低生物质原料中矿物质含量,导致热解产物发生显著变化。与其他两种无机酸相比,h3po2预处理后的生物质中残余P明显催化了生物质在热解过程中的深度脱水。热重分析表明,h3po2预处理的生物质分解的最大质量损失温度(Tmax)比未处理的以及HCl-和h3po4预处理的生物质的分解温度低40℃以上。受三种酸预处理后生物质热重谱显著差异的启发,在固定床反应器中对预处理后的生物质进行了低温(330°C和400°C)热裂解,以生产生化产品。经三种酸的预处理,固定床反应器得到的液体产物的主要无水糖有显著差异。虽然从未经处理的生物质样品中收集的热解液中酚类物质占主导地位,但用所有三种酸预处理的生物质导致生物油中的酚类物质大幅减少。生物油中酚类化合物的减少可归因于原料中矿物质含量的减少。因此,无水糖,主要是左旋葡聚糖(LG)和左旋葡酮(LGO)的产量增加。HCl-和h3po4预处理后的松木/杨木的LGO产率为20.9-28.5%,LGO产率很低(低于1.7%)。然而,h3po2预处理的生物质产生LGO具有选择性,特别是在330°C时。h3po2预处理后的松木和杨木的LGO收率分别为7.4%和6.7%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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