低阶煤和生物质热解的特征和比较研究

R. Jelita, I. F. Nata, C. Irawan, J. Jefriadi, Muhammad Hafiz, Indrayati Angreini, Meilana Dharma Putra
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引用次数: 0

摘要

低等级煤炭没有得到最佳利用,提高这一价值的另一种方法是无氧燃烧,即所谓的热解。另一方面,棕榈核壳(PKS)作为一种固体废物生物质,是棕榈油工业的副产品,如果处理不当,会造成环境问题。事实上,这种废弃物数量很多,甚至没有得到广泛利用,因此也可能是热解工艺的理想原料。本研究比较了煤和 PKS 高温分解产物的分布情况,并分析了液体(焦油)和固体(焦炭)产物的特征。结果表明,煤的热解产生更多的炭,而 PKS 的热解产生更多的气体。在使用 PKS 的热解过程中,焦油产量更高。气相色谱-质谱鉴定出两种材料的主要焦油化合物都是苯酚和乙酸,在煤和 PKS 中还分别发现了 3-甲基苯酚和甲醇。热解后,煤炭的热值提高了约 5.19%,而 PKS 的热值提高了 41.12%。煤和聚苯乙烯的其他物理性质在热解后也得到了改善。因此,在煤炭和聚苯乙烯的使用中应用热解技术可以提高这两种材料的附加值,为替代能源做出贡献。
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CHARACTERIZATION AND COMPARATIVE STUDY OF PYROLYSIS OF LOW RANK COAL AND BIOMASS
Low rank coals are not used optimally, another way to increase this value is combustion without oxygen, known as pyrolysis. On the other hand, as a solid waste biomass, palm kernel shell (PKS) is a by-product of the palm oil industry that can cause environmental problems if not handled properly. In fact, the waste is plentiful and not even widely used, therefore it may also be an ideal feedstock for the pyrolysis process. This study compares the distribution of products from coal and PKS pyrolysis, and also characterizes the liquid (tar) and solid (char) products. The results show that the pyrolysis of coal produces more char, while the pyrolysis of PKS produces more gas. Higher tar yields were obtained with the pyrolysis process using PKS. GC-MS identified the main tar compounds for both materials as phenol and acetic acid, 3-methylphenol and methanol were also found in coal and PKS, respectively. The calorific value of char increased by about 5.19 % for coal and 41.12 % for PKS after pyrolysis. The other physical properties of coal and PKS are also improved after pyrolysis. Therefore, the application of pyrolysis in the use of coal and PKS can increase the added value of these two materials and contribute to alternative energy sources. 
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来源期刊
Journal of Chemical Technology and Metallurgy
Journal of Chemical Technology and Metallurgy Engineering-Industrial and Manufacturing Engineering
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1.40
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