Catalytic pyrolysis of hydrolyzed lignin using HZSM-5/MCM-41 supported transition-metal to produce monocyclic aromatic hydrocarbons

IF 5.8 2区 化学 Q1 CHEMISTRY, ANALYTICAL
Wei Wang, Zhaoping Zhong, Xiang Zheng, Qihang Ye, Yihui Li, Yuxuan Yang
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Abstract

Hydrolyzed lignin (HL), one kind of organic solid wastes, comes from the production of hydrolysis of lignocellulosic biomass for high-value chemicals, unsuitable treatment of which not only meaning the waste of resources but also resulting environmental pollution. The pyrolysis of HL has the problem of high oxygen-containing compounds and low hydrocarbons in the products. The HZSM-5/MCM-41 (HM) meso-microporous composite catalyst, containing nickel and molybdenum, was synthesized through impregnation to enhance the production of monocyclic aromatic hydrocarbons (MAHs) during the in-situ catalytic pyrolysis of hydrolyzed lignin. Different transition metals loaded on composite molecular sieves were prepared for comparison. The relationship between catalyst structure and pyrolysis efficiency was studied based on characterization techniques including SEM, BET, and XRD. This study investigated the catalytic properties of modified composite molecular sieves with Ni and Mo at different loaded ratios on the pyrolysis of hydrolyzed lignin. Results indicated that HM loaded with different metals had different catalytic pyrolysis selectivity. The relative yield of MAHs on 3 %Ni-HM was the highest, at 27.78 %, while that of phenolic on 5 %Mo-HM was 51.02 %. Thus, by modifying the co-loading ratios between Ni and Mo, the combined catalytic pyrolysis of hydrolyzed lignin was performed, achieving a 39.24 % yield of MAHs on the catalyst Mo1Ni2-HM, markedly surpassing the 17.69 % yield from unaltered HZSM-5/MCM-41. In addition, the improvement of active sites was caused by transition metals loaded and the synergistic effect between bimetals enhanced the catalytic activity and stability. HZSM-5/MCM-41 loaded with metal oxides promoted the depolymerization of macromolecules in the intermediate products of pyrolysis, and thus improved the relative yield of MAHs among pyrolysis products of hydrolyzed lignin.
使用 HZSM-5/MCM-41 支持的过渡金属催化热解水解木质素以生产单环芳烃
水解木质素(HL)是一种有机固体废弃物,来源于水解木质纤维素生物质生产高价值化学品,处理不当不仅会造成资源浪费,还会造成环境污染。HL 的热解存在产品中含氧化合物高而碳氢化合物低的问题。通过浸渍法合成了含镍和钼的 HZSM-5/MCM-41 (HM) 介微孔复合催化剂,以提高水解木质素原位催化热解过程中单环芳烃 (MAH) 的产量。为了进行比较,制备了负载在复合分子筛上的不同过渡金属。根据 SEM、BET 和 XRD 等表征技术研究了催化剂结构与热解效率之间的关系。本研究考察了不同负载比例的镍和钼改性复合分子筛对水解木质素热解的催化性能。结果表明,负载不同金属的 HM 具有不同的催化热解选择性。3 %Ni-HM 的 MAHs 相对产率最高,为 27.78 %,而 5 %Mo-HM 的酚类相对产率为 51.02 %。因此,通过改变镍和钼的共负载比率,水解木质素的组合催化热解在催化剂 Mo1Ni2-HM 上实现了 39.24 % 的 MAHs 收率,明显超过了未改变的 HZSM-5/MCM-41 的 17.69 % 收率。此外,活性位点的改善是由负载的过渡金属引起的,双金属之间的协同效应提高了催化活性和稳定性。负载金属氧化物的 HZSM-5/MCM-41 促进了热解中间产物中大分子的解聚,从而提高了水解木质素热解产物中 MAHs 的相对产率。
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来源期刊
CiteScore
9.10
自引率
11.70%
发文量
340
审稿时长
44 days
期刊介绍: The Journal of Analytical and Applied Pyrolysis (JAAP) is devoted to the publication of papers dealing with innovative applications of pyrolysis processes, the characterization of products related to pyrolysis reactions, and investigations of reaction mechanism. To be considered by JAAP, a manuscript should present significant progress in these topics. The novelty must be satisfactorily argued in the cover letter. A manuscript with a cover letter to the editor not addressing the novelty is likely to be rejected without review.
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