稻壳农用秸秆的热解行为及其相关灰渣各种性能的定量研究

Xiwen Yao, Kaili Xu, Yu Liang
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引用次数: 0

摘要

在本研究中,深入研究了稻壳作为生物合成气生产的可持续原料的热过程行为,以及热过程产生的稻壳灰作为可能利用的前体的物理化学性质。初步分析了加热速率对动力学和生物合成气形成的影响。稻壳的热重分析结果表明,稻壳的分解分4个阶段,主要失重发生在210 ~ 400℃。20℃/min时CO、CO2、CH4和H2的排放强度远高于5℃/min时的排放强度,说明较高升温速率的热解更适合生物合成气的生产。化学和物相分析表明,SiO2的主要晶相为方石英、石英和钇铝石,这表明稻壳灰具有替代硅化合物的潜力。多孔结构分析表明,稻壳灰残炭是制备活性炭的良好候选材料。通过对其热性能的分析,准确预测了灰颗粒内部发生的反应,有助于更好地理解复合组成灰中无机组分的转化和融合机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantitative Investigation on Pyrolytic Behaviors of Agricultural Residues from Rice Husk and Various Performances of Their Relevant Ash Residues
In this study, the thermal process behavior of rice husk as a sustainable feedstock for bio-syngas production and the physicochemical properties of rice husk ash generated from thermal process as possible precursors for utilizations were intensively investigated. A preliminary analysis of the influences of heating rate on kinetics and on the formation of bio-syngas was also performed. The thermogravimetric results of rice husk indicate that its decomposition occurs in four stages, and the main weight loss occurs within 210–400°C. The emission intensities of CO, CO2, CH4, and H2 at 20°C/min are much higher than those of 5°C/min, indicating that pyrolysis at higher heating rates is more suitable for bio-syngas production. Chemical and phase analysis exhibits the presence of cristobalite, quartz, and tridymite as the major crystal phases of SiO2, which reveals the potential of rice husk ash as an alternative for silicon compounds. The porous structure analysis indicates that carbon residues developed from rice husk ash are good candidates for activated carbon production. Through analyzing its thermal properties, the internal reactions occurring within ash particles are predicted accurately, which is helpful to better understand the transformation and fusion mechanism of inorganic components in the complex-composition ash.
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来源期刊
Journal of Residuals Science & Technology
Journal of Residuals Science & Technology 环境科学-工程:环境
自引率
0.00%
发文量
0
审稿时长
>36 weeks
期刊介绍: The international Journal of Residuals Science & Technology (JRST) is a blind-refereed quarterly devoted to conscientious analysis and commentary regarding significant environmental sciences-oriented research and technical management of residuals in the environment. The journal provides a forum for scientific investigations addressing contamination within environmental media of air, water, soil, and biota and also offers studies exploring source, fate, transport, and ecological effects of environmental contamination.
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