Pyrolysis/Non-thermal Plasma/Catalysis Processing of Refuse-Derived Fuel for Upgraded Oil and Gas Production.

IF 2.6 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Waste and Biomass Valorization Pub Date : 2025-01-01 Epub Date: 2025-01-08 DOI:10.1007/s12649-024-02866-w

Maryam Khatibi, Mohamad A Nahil, Paul T Williams

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引用次数: 0

Abstract

Refuse-derived fuel (RDF) produced from the processing of municipal solid waste (MSW) has a high content of biomass and plastics. Pyrolysis of RDF produces a bio-oil which is highly oxygenated, viscous, acidic with a high moisture content and unsuitable for direct use in conventional combustion systems and consequently requires upgrading. A novel process of pyrolysis with non-thermal plasma/catalysis has been developed to produce de-oxygenated bio-oils and gases from RDF. The volatiles from the pyrolysis stage are passed directly to a non-thermal plasma/catalytic reactor where upgrading of the pyrolysis volatiles takes place. Detailed analysis of the product oils and gases is presented in relation to process conditions and in the presence of different catalysts (TiO₂, MCM-41, ZSM-5, and Al₂O₃). Even in the absence of a catalyst, the presence of the non-thermal plasma resulted in high yields of CO and CO₂ gases and reduced bio-oil oxygen content, confirming deoxygenation of the RDF pyrolysis volatiles. The addition of catalysts MCM-41 and ZSM-5 generated the highest yields of CO, CO₂, and H₂ due to the synergy between catalyst and plasma. The catalysts ranked in terms of total oxygenated oil yield are as follows: MCM-41 < ZSM-5 < TiO₂ < Al₂O₃. Pyrolysis of RDF produces an oil containing oxygenated species from biomass and hydrocarbon species from plastics. The non-thermal plasma generates high energy electrons which generate radicals and intermediates from the pyrolysis volatiles which synergistically interact with the catalysts to enable deoxygenation of the oxygenated hydrocarbons through decarboxylation and decarbonylation reactions.

Graphical abstract:

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热解/非热等离子体/催化处理垃圾衍生燃料用于升级油气生产。

由城市固体废物（MSW）处理产生的垃圾衍生燃料（RDF）具有高含量的生物质和塑料。RDF热解产生的生物油具有高氧、粘性、酸性和高水分含量，不适合直接用于传统燃烧系统，因此需要升级。提出了一种新的非热等离子体/催化热解工艺，以RDF为原料制备脱氧生物油和气体。热解阶段的挥发物直接传递到非热等离子体/催化反应器，在那里进行热解挥发物的升级。详细分析了产品油和气体与工艺条件和不同催化剂（TiO₂，MCM-41， ZSM-5和Al₂O₃）的关系。即使在没有催化剂的情况下，非热等离子体的存在也会导致CO和CO 2气体的高产出，并降低生物油的氧含量，从而证实了RDF热解挥发物的脱氧。催化剂MCM-41和ZSM-5的加入，由于催化剂和等离子体的协同作用，CO、CO₂和H₂的产率最高。按总氧化油收率排序的催化剂如下：

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 and Biomass Valorization ENVIRONMENTAL SCIENCES-

CiteScore

7.90

自引率

3.10%

发文量

311

审稿时长

4 months

期刊介绍： Until the 1990s, technology was the main driver when dealing with waste and residues, the objective being the treatment of waste for (landfill) disposal, storage, and in some cases sorting. In the 1990s, depletion of raw materials and socio-economical concerns supported the direct recycling of waste and residues. However, the direct recycling approach is limited when waste/residues contain significant amounts of pollutants such as heavy metals and organics (VOC, PAH), and when the treatment process to remove/stabilize or destruct the pollutant generates emissions. Due to depletion of natural resources, increasing greenhouse emissions, and awareness of the need for sustainable development in terms of safely reusing waste and biomass, the transformation of waste/biomass to valuable materials and energy (i.e. valorization) is emerging as a strong trend