稻壳二氧化硅衍生的传统和分层绿色 MWW 沸石催化热解聚苯乙烯

IF 5.2 2区 化学 Q1 CHEMISTRY, APPLIED
Thaís Schmitz , Arthur Motta de Andrade , Francieli Martins Mayer , Isabel Cristina Tessaro , Nilson Romeu Marcilio , Maria do Carmo Rangel , Anderson Joel Schwanke
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引用次数: 0

摘要

这项研究旨在利用稻壳二氧化硅作为替代原料,绿色合成 MWW 沸石。此外,还使用 NaOH 和 CTABr 进行了合成后脱硅处理,旨在获得具有更好亲和性的 MWW 沸石。一系列表征技术(XRD、27Al MAS NMR、N2 物理吸附、SEM、TEM 和吡啶-傅立叶变换红外光谱)显示了脱硅后的相纯度和微孔的组合结构。对沸石作为聚苯乙烯热解催化剂进行了评估,除苯乙烯单体和二聚体外,还产生了苯、甲苯和乙苯。在不使用任何催化剂的情况下,聚苯乙烯只产生苯乙烯单体、二聚体和三聚体。脱硅增加了布氏和路易斯位点的数量以及外部面积,从而催化了聚芳烃和萘衍生物的生产。催化反应的活化能降低,反映了其他反应途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Catalytic pyrolysis of polystyrene over rice husk silica-derived traditional and hierarchical green MWW zeolites

This work aimed at the green synthesis of MWW zeolites using rice husk silica as an alternative raw material. It was also performed a post-synthesis desilication procedure with NaOH and CTABr aiming to obtain MWW zeolites with improved accessibility. The set of characterization techniques (XRD, 27Al MAS NMR, N2 physisorption, SEM, TEM, and Pyridine-FTIR) revealed the phase purity and combined structure of micro-mesopores after desilication. The zeolites were evaluated as catalysts for polystyrene pyrolysis, producing benzene, toluene and ethylbenzene, besides styrene monomers, and dimers. Without any catalyst, polystyrene produces only styrene monomers, dimers and trimers. The desilication increases the amount of Brønsted and Lewis sites and the external area, catalyzing the production of polyaromatics and naphthalene derivatives. The activation energy decreased for the catalyzed reactions, reflecting other reaction pathways.

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来源期刊
Catalysis Today
Catalysis Today 化学-工程:化工
CiteScore
11.50
自引率
3.80%
发文量
573
审稿时长
2.9 months
期刊介绍: Catalysis Today focuses on the rapid publication of original invited papers devoted to currently important topics in catalysis and related subjects. The journal only publishes special issues (Proposing a Catalysis Today Special Issue), each of which is supervised by Guest Editors who recruit individual papers and oversee the peer review process. Catalysis Today offers researchers in the field of catalysis in-depth overviews of topical issues. Both fundamental and applied aspects of catalysis are covered. Subjects such as catalysis of immobilized organometallic and biocatalytic systems are welcome. Subjects related to catalysis such as experimental techniques, adsorption, process technology, synthesis, in situ characterization, computational, theoretical modeling, imaging and others are included if there is a clear relationship to catalysis.
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