焦化甘蔗渣的特性和评估,以改善燃料性能

Q2 Materials Science
Muktar Abdu Kalifa, Nigus Gabbiye Habtu, Addis Lemessa Jembere, Melkamu Birlie Genet
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引用次数: 0

摘要

热解是一种很有前景的处理方法,有望改善生物质的物理化学性能并提高其热效率。本研究调查了甘蔗渣在干法和化学处理中的热解情况,并将其与原料甘蔗渣的物理、化学和热性能进行了比较。采用稀硫酸预处理原料蔗渣,进行热化学高温烘焙。在惰性环境下,在填料床反应器中以一定的温度(220-280 °C)和一定的时间(30-120 分钟)进行干烧。在 280 °C 和 120 分钟的温度条件下,通过化学干烧法生产的焦油在热值、能量和体积密度方面的性能都有所提高。温度升高导致固定碳含量增加,从而明显降低了水分含量和挥发性物质。质量产率和能量产率随温度和时间的增加而降低。焦化蔗渣的碳含量随温度和时间的增加而增加,而氢和氧的含量则因脱溶反应而减少。在干法和化学焙烧中,蔗渣的 HHV 分别从 16.05 兆焦耳/千克和 22.29 兆焦耳/千克提高到 20.34 兆焦耳/千克。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization and evaluation of torrefied sugarcane bagasse to improve the fuel properties

Torrefaction is a promising method of treatment with a prospect toward Physco-chemical improvement and thermal upgrading of biomass. In the present study, the torrefaction of sugarcane bagasse in both dry and chemical treatment in comparison with the physical, chemical, and thermal properties of raw bagasse was investigated. Thermochemical torrefaction was carried out by pretreatment of raw bagasse with dilute sulfuric acid. The torrefaction temperature was carried out at a carried temperature (220–280 °C) and a torrefaction period (30–120 min) in a packed bed reactor under an inert environment, whereas dry torrefaction was performed using the same treatment without the addition of a chemical to the raw bagasse. Chars produced by chemical torrefaction were found with improved properties of heating value, energy, and bulk density at 280 °C and 120 min. Increasing temperature resulting in high fixed carbon content apparently decreases moisture content and volatile matter. The mass yield and energy yield were found to be decreased with temperature and time. The carbon content of torrefied bagasse was increased with temperature and time, whereas, hydrogen and oxygen content decreased due to the devolatilization reactions. It was able to upgrade HHV from 16.05 to 20.34 MJ/Kg in dry and 22.29 MJ/Kg in chemical torrefaction.

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来源期刊
Current Research in Green and Sustainable Chemistry
Current Research in Green and Sustainable Chemistry Materials Science-Materials Chemistry
CiteScore
11.20
自引率
0.00%
发文量
116
审稿时长
78 days
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