从家庭和花园垃圾堆肥箱中热解第三代生物质制备生物燃料:动力学分析

Reactions Pub Date : 2023-06-12 DOI:10.3390/reactions4020018
Bruna Rijo, A. P. Soares Dias, Novi Dwi Saksiwi, M. Pereira, R. Zăvoianu, O. Pavel, O. Ferreira, R. G. dos Santos
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引用次数: 0

摘要

现代社会产生了大量的生活垃圾,这些垃圾的有机物含量很高。生活垃圾的蚯蚓堆肥产生高价值的腐殖质物质,是一种稳定有机物质的方法,供以后用作生物能源的原料(第三代生物质)。对一种6个月成熟的堆肥进行了评估,该堆肥由生活垃圾中的蔬菜和水果残渣以及庭院垃圾中的草和灌木剪枝组成,以评估其作为热解过程原料的潜力。热解活化能(Kissinger)在200 ~ 300 kJ/mol范围内,证实了其适宜于H2产率较高的热解工艺。用H2SO4和NaOH溶液(沸腾)处理堆肥;1 mol/L)产生的固体残渣具有更高的热解活化能,最具弹性的部分达到550 kJ/mol,这使得它们适合生产含碳材料(生物炭),这些材料将结合存在于原始堆肥(灰烬37.6%)中的无机物。无机物作为气化促进剂,在热解过程中起主要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biofuels from Pyrolysis of Third-Generation Biomass from Household and Garden Waste Composting Bin: Kinetics Analysis
The modern society produces large amounts of household waste with high organic matter content. The vermicomposting of household waste produces high-value humic substances and is a way to stabilize organic material for later use as raw material (3rd generation biomass) for bioenergy proposes. A 6-month matured compost, combining vegetable and fruit scraps from domestic trash and grass and shrub clippings from yard waste, was evaluated to assess its potential as a raw material in pyrolysis processes. The pyrolysis activation energy (Kissinger) of the composted material showed values in the range of 200–300 kJ/mol, thus confirming its suitability for pyrolysis processes with promising H2 yields. The treatment of the composted material with H2SO4 and NaOH solution (boiling; 1 mol/L) led to the production of solid residues that present higher pyrolysis activation energies, reaching 550 kJ/mol for the most resilient fraction, which makes them suitable to produce carbonaceous materials (biochar) that will have incorporated the inorganics existing in the original compost (ashes 37.6%). The high content of inorganics would play a chief role during pyrolysis since they act as gasification promoters.
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CiteScore
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