Dry and Hydrothermal Co-Carbonization of Mixed Refuse-Derived Fuel (RDF) for Solid Fuel Production

Reactions Pub Date : 2024-01-16 DOI:10.3390/reactions5010003
Andrei Longo, O. Alves, Ali Umut Şen, C. Nobre, Paulo Brito, M. Gonçalves
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引用次数: 0

Abstract

The present study aims to test several conditions of the thermochemical pretreatment of torrefaction and carbonization to improve the physical and combustible properties of the Portuguese RDF. Therefore, two different types of RDF were submitted alone or mixed in 25%, 50%, and 75% proportions to dry carbonization processes in a range of temperatures between 250 to 350 °C and residence time between 15 and 60 min. Hydrothermal carbonization was also carried out with RDF samples and their 50% mixture at temperatures of 250 and 300 °C for 30 min. The properties of the 51 chars and hydrochars produced were analyzed. Mass yield, apparent density, proximate and elemental analysis, ash mineral composition, and higher heating value (HHV), among others, were determined to evaluate the combustion behavior improvement of the chars. The results show that after carbonization, the homogeneity and apparent density of the chars were increased compared to the raw RDF wastes. The chars and hydrochars produced present higher HHV and lower moisture and chlorine content. In the case of chars, a washing step seems to be essential to reduce the chlorine content to allow them to be used as an alternative fuel. In conclusion, both dry and wet carbonization demonstrated to be important pretreatments of the RDF to produce chars with improved physical and combustion properties.
用于生产固体燃料的垃圾衍生混合燃料 (RDF) 的干法和水热共碳化技术
本研究旨在测试热化学预处理的几种条件,即高温分解和碳化,以改善葡萄牙 RDF 的物理和可燃特性。因此,两种不同类型的 RDF 被单独或按 25%、50% 和 75% 的比例混合,在 250 至 350 °C 的温度范围内和 15 至 60 分钟的停留时间内进行干法碳化。此外,还对 RDF 样品及其 50% 的混合物进行了水热碳化,温度为 250 ℃ 和 300 ℃,时间为 30 分钟。对所生产的 51 种炭和水炭的特性进行了分析。测定了质量产量、表观密度、近似和元素分析、灰分矿物成分和较高的热值(HHV)等,以评估炭的燃烧性能改善情况。结果表明,与原始 RDF 废物相比,碳化后炭的均匀性和表观密度都有所提高。生产出的焦炭和水焦炭具有更高的 HHV 值,水分和氯含量更低。就木炭而言,似乎必须经过洗涤步骤才能降低氯含量,使其能够用作替代燃料。总之,干法碳化和湿法碳化都是对可再生资源进行预处理的重要方法,可以生产出物理和燃烧性能更好的木炭。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.70
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