秸秆缓慢热解:生物炭、生物油和生物气的分析

M. Das, S. Dasgupta, M. A. Klunk
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引用次数: 1

摘要

生物质能是一个术语,指的是从有机物质中提取的任何可再生资源,可以用于能源生产。农业生产产生的残留物对其能源利用非常重要,其中包括甘蔗、桉树和水稻。水稻种植过程中会产生多种残留物,其中稻壳和秸秆是最重要的。为了在工业上使用生物质,已经开发了几种热转换技术。热解以其在不同聚集阶段生产生物燃料的能力而闻名。生物质慢热解是改善稻草理化特性的一种预处理方法。在这个过程中,主要产生一种称为生物炭的固体,与原始生物量相比,它具有更高的能量含量。本研究研究了稻秆在300 - 700℃下的缓慢热解,以获得生物炭、生物油和用于能源的气体。实验结果表明,热解温度对产率有重要影响。在300℃的温度下,生物炭的产率最高,为49.91%。与700°C的产率(33.87 wt.%)相比,这增加了47%。这种行为与300°C时固定碳26.01 wt.%的近似分析结果有关。据XRF称,生物炭的高pH值归因于碱金属的存在。生物质的热分解导致生物油(16.81 - 34.70 wt.%)和气体(6.53 - 18.05 wt.%)在湿基础上逐渐增加。因此,在干基参数中,生物油从19.22 - 30.6 wt.%增加,气体从9.42-20.19 wt.%增加。干燥的原料显示,通过结果,在副产物显著增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SLOW PYROLYSIS OF RICE STRAW: ANALYSIS OF BIOCHAR, BIO-OIL AND GAS
Biomass is the term attributed to any renewable resource derived from organic matter that can be used in energy production. Agricultural production generates residues that are of great importance for their energy use, of which sugar cane, eucalyptus, and rice. Various residues are generated from rice cultivation, among which the rice husk and rice straw are the most important. Several thermal conversion technologies have been developed for the use of biomass in industry. Pyrolysis has been notable for its ability to produce biofuels at different stages of aggregation. The slow pyrolysis of biomass has been proposed as a pretreatment method to improve the physical-chemical characteristics of rice straw. In this process is produced, mainly, a solid called biochar, which has a higher energy content when compared to the biomass of origin. This study investigated the slow pyrolysis of rice straw at 300 - 700°C for the purpose of obtaining biochar, bio-oil, and gases for energy purposes. The experimental results show that pyrolysis temperature has important roles in yield product. The highest biochar yield was observed at a temperature of 300°C with 49.91 wt%. This represents 47% more when compared to yield at 700°C (33.87 wt.%). This behavior is linked to the proximate analysis results for fixed carbon 26.01 wt.% at 300°C. The high pH of the biochar was attributed to the presence of alkali metals, according to XRF. Thermal decomposition of the biomass resulting in a gradual increase of bio-oil (16.81 - 34.70 wt.%) and gas (6.53 - 18.05 wt.%) on a wet basis. Thus, in the dry base parameter, the bio-oil increases from 19.22 - 30.6 wt.% and the gases at 9.42-20.19 wt.%. Drying of the raw material showed, by the results, a significant increase in the co-products.
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