Kinetic investigation on the catalytic pyrolysis of plastic fractions of waste electrical and electronic equipment (WEEE): A mathematical deconvolution approach.

IF 7.1 2区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Waste management Pub Date : 2024-10-01 Epub Date: 2024-07-22 DOI:10.1016/j.wasman.2024.07.015
Samina Gulshan, Hoda Shafaghat, Shule Wang, Leilei Dai, Chuchu Tang, Wenming Fu, Yuming Wen, Chi-Hwa Wang, Panagiotis Evangelopoulos, Weihong Yang
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Abstract

Waste electrical and electronic equipment (WEEE) has become a critical environmental problem. Catalytic pyrolysis is an ideal technique to treat and convert the plastic fraction of WEEE into chemicals and fuels. Unfortunately, research using real WEEE remains relatively limited. Furthermore, the complexity of WEEE complicates the analysis of its pyrolytic kinetics. This study applied the Fraser-Suzuki mathematical deconvolution method to obtain the pseudo reactions of the thermal degradation of two types of WEEE, using four different catalysts (Al2O3, HBeta, HZSM-5, and TiO2) or without a catalyst. The main contributor(s) to each pseudo reaction were identified by comparing them with the pyrolysis results of the pure plastics in WEEE. The nth order model was then applied to estimate the kinetic parameters of the obtained pseudo reactions. In the low-grade electronics pyrolysis, the pseudo-1 reaction using TiO2 as a catalyst achieved the lowest activation energy of 92.10 kJ/mol, while the pseudo-2 reaction using HZSM-5 resulted in the lowest activation energy of 101.35 kJ/mol among the four catalytic cases. For medium-grade electronics, pseudo-3 and pseudo-4 were the main reactions for thermal degradation, with HZSM-5 and TiO2 yielding the lowest pyrolytic activation energies of 75.24 and 226.39 kJ/mol, respectively. This effort will play a crucial role in comprehending the pyrolysis kinetic mechanism of WEEE and propelling this technology toward a brighter future.

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废弃电气和电子设备(WEEE)塑料部分催化热解的动力学研究:数学解卷积方法。
废弃电气和电子设备(WEEE)已成为一个严重的环境问题。催化热解是处理废弃电气和电子设备中的塑料部分并将其转化为化学品和燃料的理想技术。遗憾的是,利用实际废弃电子电气设备进行的研究仍然相对有限。此外,废弃电子电气设备的复杂性也使其热解动力学分析变得复杂。本研究采用 Fraser-Suzuki 数学解卷积法,获得了使用四种不同催化剂(Al2O3、HBeta、HZSM-5 和 TiO2)或不使用催化剂的两类废弃电子电气设备热降解的伪反应。通过与 WEEE 中纯塑料的热解结果进行比较,确定了每种假反应的主要促成因素。然后应用 nth 阶模型来估算所得伪反应的动力学参数。在低档电子产品热解过程中,以 TiO2 为催化剂的伪-1 反应的活化能最低,为 92.10 kJ/mol;而在四种催化情况下,以 HZSM-5 为催化剂的伪-2 反应的活化能最低,为 101.35 kJ/mol。对于中档电子产品,伪-3 和伪-4 是热降解的主要反应,HZSM-5 和 TiO2 产生的热解活化能最低,分别为 75.24 和 226.39 kJ/mol。这项研究对于理解废弃电子电气设备的热解动力学机制以及推动这项技术走向更光明的未来将起到至关重要的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Waste management
Waste management 环境科学-工程:环境
CiteScore
15.60
自引率
6.20%
发文量
492
审稿时长
39 days
期刊介绍: Waste Management is devoted to the presentation and discussion of information on solid wastes,it covers the entire lifecycle of solid. wastes. Scope: Addresses solid wastes in both industrialized and economically developing countries Covers various types of solid wastes, including: Municipal (e.g., residential, institutional, commercial, light industrial) Agricultural Special (e.g., C and D, healthcare, household hazardous wastes, sewage sludge)
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