Chemical looping combustion (CLC) of municipal solid waste (MSW)

IF 2.7 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Journal of Material Cycles and Waste Management Pub Date : 2023-05-12 DOI:10.1007/s10163-023-01674-z
Z. T. Yaqub, B. O. Oboirien, H. Leion
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引用次数: 1

Abstract

Chemical Looping Combustion (CLC) has been found to be a better alternative in converting Municipal Solid Waste (MSW) to energy and has the potential to reduce the generation of dioxins due to the inhibition of the de-novo synthesis of dioxins. This study comprehensively reviews the experimental studies of CLC of MSW, the oxygen carriers, reactor types, performance evaluation, and ash interaction studies. Modeling and simulation studies of CLC of MSW were also critically presented. Plastic waste is MSW’s most studied non-biomass component in MSW under CLC conditions. This is because CLC has been shown to reduce the emission of dioxins and furans, which are normally emitted during the conventional combustion of plastics. From the several oxygen carriers tested with MSW’s CLC, alkaline earth metals (AEM) modified iron ore was the most effective for reducing dioxin emissions, improving combustion efficiency and carbon conversion. Also, oxygen carriers with supports were more reactive than single carriers and CaSO4/Fe2O3 and CaSO4 in silica sol had the highest oxygen transport ability. Though XRD analysis and thermodynamic calculations of the reacted oxygen carriers yielded diverse results due to software computation constraints, modified iron ore produced less HCl and heavy metal chlorides compared to iron ore and ilmenite. However, alkali silicates, a significant cause of fouling, were observed instead. The best reactor configuration for the CLC of MSW is the fluidized bed reactor, because it is easy to obtain high and homogeneous solid–gas mass transfer. Future research should focus on the development of improved oxygen carriers that can sustain reactivity after several cycles, as well as the system’s techno-economic feasibility.

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城市生活垃圾的化学循环燃烧
化学循环燃烧(CLC)已被发现是将城市固体废物(MSW)转化为能源的一种较好的替代方法,并且由于抑制二恶英的重新合成,有可能减少二恶英的产生。本文综述了城市生活垃圾中氧载体、反应器类型、性能评价、灰分相互作用等方面的实验研究。本文还对城市生活垃圾CLC的建模和仿真研究进行了评述。在CLC条件下,塑料垃圾是城市生活垃圾中研究最多的非生物质成分。这是因为CLC已被证明可以减少二恶英和呋喃的排放,而这两种物质通常是在传统的塑料燃烧过程中排放的。通过对几种载氧载体进行CLC试验,发现碱土金属(AEM)改性铁矿在降低二恶英排放、提高燃烧效率和碳转化率方面效果最好。此外,有载体的氧载体比单一载体的反应性更强,二氧化硅溶胶中的CaSO4/Fe2O3和CaSO4具有最高的氧运输能力。虽然由于软件计算的限制,对反应氧载体的XRD分析和热力学计算得出了不同的结果,但与铁矿石和钛铁矿相比,改性铁矿石产生的HCl和重金属氯化物较少。然而,碱硅酸盐,污染的一个重要原因,被观察到。流化床反应器易于获得高且均匀的固气传质,是城市生活垃圾中轻碳处理的最佳反应器配置。未来的研究应侧重于改进氧载体的开发,使其在几个循环后仍能保持反应性,以及该系统的技术经济可行性。
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来源期刊
CiteScore
5.30
自引率
16.10%
发文量
205
审稿时长
4.8 months
期刊介绍: The Journal of Material Cycles and Waste Management has a twofold focus: research in technical, political, and environmental problems of material cycles and waste management; and information that contributes to the development of an interdisciplinary science of material cycles and waste management. Its aim is to develop solutions and prescriptions for material cycles. The journal publishes original articles, reviews, and invited papers from a wide range of disciplines related to material cycles and waste management. The journal is published in cooperation with the Japan Society of Material Cycles and Waste Management (JSMCWM) and the Korea Society of Waste Management (KSWM).
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