斯维奇草生物质的能源潜力分析

Biomass Pub Date : 2024-07-08 DOI:10.3390/biomass4030041
M. Ioelovich
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摘要

本研究分析了开关草(SG)的能源潜力,以找到利用这种生物质生产生物能源的可行方向。第一个方向是确定 SG 生物质经过预处理、酶水解(糖化)和所得葡萄糖发酵后提取生物乙醇的热能。结果表明,用硝酸和碱的稀溶液对 1 吨 SG 进行两阶段预处理后,可提取的生物乙醇量最大,能量潜力为 4.9 GJ。研究还表明,通过利用固体和液体废物,可以降低生物乙醇的生产成本。另一方面,直接燃烧 1 吨用作固体生物燃料的初始 SG 生物质可增加 18.3 千兆焦耳的热能,比从 1 吨该生物质中提取的生物乙醇的能量潜力高 3.7 倍。因此,如果最终目标是获得最大能量,则应采用另一种从生物质中获取生物能源的方法,即直接燃烧,最好是在造粒之后。研究表明,SG 颗粒的燃料特性,如总热能和热能密度低于木质颗粒,但如果将 SG 生物质与聚合物废料制成的粘合剂一起浓缩成颗粒,这些特性就可以得到改善。
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Analysis of Energy Potential of Switchgrass Biomass
In this research, the energy potential of switchgrass (SG) was analyzed to find promising directions for producing bioenergy from this biomass. The first direction is determining the thermal energy of bioethanol extracted from SG biomass after its pretreatment, enzymatic hydrolysis (saccharification), and fermentation of the resulting glucose. It was established that after a two-stage pretreatment of 1 ton of SG with dilute solutions of nitric acid and alkali, the largest amount of bioethanol can be extracted with an energy potential of 4.9 GJ. It is also shown that by the utilization of solid and liquid waste, the production cost of bioethanol can be reduced. On the other hand, the direct combustion of 1 ton of the initial SG biomass used as a solid biofuel provides an increased amount of thermal energy of 18.3 GJ, which is 3.7 times higher than the energy potential of the resulting bioethanol extracted from 1 ton of this biomass. Thus, if the ultimate goal is to obtain the maximum energy amount, then another direction for obtaining bioenergy from biomass should be implemented, namely, direct combustion, preferably after pelletizing. Studies have shown that fuel characteristics of SG pellets such as the gross thermal energy and density of thermal energy are lower than those of wood pellets, but they can be improved if the SG biomass is densified into pellets together with binders made from polymer waste.
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