铁改性ZSM-5催化剂催化重整低密度聚乙烯热解气态产物

Abubakar Y. Waziri, Aisha A. Osigbesan, Fadimatu N. Dabai, Suleiman M. Shuwa, Abdulazeez Y. Atta, Baba Y. Jibril
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引用次数: 10

摘要

通过催化裂化将塑料垃圾转化为燃料不断受到世界各地研究人员的关注。本文研究了ZSM-5 (Fe-ZSM-5)催化剂上的铁对低密度聚乙烯(LDPE)热分解气态产物重整的影响。酸化ZSM-5催化剂(0、0.3、0.6和1?用XRD、BET、FTIR和SEM等技术对其进行了表征。特别研究了温度(400、450和500℃)和催化剂负载(0.5、0.75、1.0、1.25和1.5 g)对两段(热解炉和重整炉)将LDPE废弃物分解为燃料的影响。采用FTIR和GC/MS技术对所制得的液体组分进行了表征。研究表明,热解温度的升高(400 ~ 500℃)使热热解和催化热解过程中不可冷凝气体体积增大(31 ~ 58 wt%),凝析物体积减小(69 ~ 41 wt%)。而催化热解的趋势则更高。与催化热解相比,热热解温度的升高对凝析液芳构化含量的影响较小。FTIR结果表明,与热热解相比,催化热解重整液体馏分的芳香族含量显著增加,脂肪族含量显著减少。GC/MS结果证实,在最佳催化剂(1.25?催化剂G和1?ZSM-5在450°C时装载wt%铁)。
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Catalytic reforming of gaseous products from pyrolysis of low-density polyethylene over iron-modified ZSM-5 catalysts

Converting plastic wastes into fuels through catalytic cracking is continuously gaining interest from researchers worldwide. In this study, the influence of iron on ZSM-5 (Fe-ZSM-5) catalyst on the reforming of the gaseous products of thermal decomposition of low-density polyethylene (LDPE) was investigated. The acidified ZSM-5 catalysts (0, 0.3, 0.6 and 1?wt% of Fe) were prepared and characterized by XRD, BET, FTIR and SEM techniques. In particular, the effects of temperature (400, 450 and 500?°C) and catalyst loading (0.5, 0.75, 1.0, 1.25 and 1.5?g) on a two-stage (pyrolyser and reformer) decomposition of the LDPE wastes into fuel were studied. The liquid fraction produced was characterized using FTIR and GC/MS techniques. The study showed that the increase in pyrolysis temperature (400–500?°C) increases the volume of non-condensable gas (31–58?wt%) and decreases the volume of the condensates (69–41?wt%) in both the thermal and catalytic pyrolyses. However, the trend was at higher level for the catalytic pyrolysis. The increase in temperature for the thermal pyrolysis had less significant effect on the aromatization content of the liquid condensate compared to the catalytic pyrolysis. The FTIR results show a significant increase in aromatic contents and decrease in the aliphatic of the liquid fraction for the catalytic pyrolysis reforming when compared with thermal pyrolysis. The GC/MS results confirmed the aromatic hydrocarbon compositions, predominantly p-xylene, increased relatively to about 70% in the liquid fraction for the best catalyst (1.25?g of catalyst and 1?wt% iron loading on ZSM-5 at 450?°C).

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来源期刊
Applied Petrochemical Research
Applied Petrochemical Research ENGINEERING, CHEMICAL-
自引率
0.00%
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审稿时长
13 weeks
期刊介绍: Applied Petrochemical Research is a quarterly Open Access journal supported by King Abdulaziz City for Science and Technology and all the manuscripts are single-blind peer-reviewed for scientific quality and acceptance. The article-processing charge (APC) for all authors is covered by KACST. Publication of original applied research on all aspects of the petrochemical industry focusing on new and smart technologies that allow the production of value-added end products in a cost-effective way. Topics of interest include: • Review of Petrochemical Processes • Reaction Engineering • Design • Catalysis • Pilot Plant and Production Studies • Synthesis As Applied to any of the following aspects of Petrochemical Research: -Feedstock Petrochemicals: Ethylene Production, Propylene Production, Butylene Production, Aromatics Production (Benzene, Toluene, Xylene etc...), Oxygenate Production (Methanol, Ethanol, Propanol etc…), Paraffins and Waxes. -Petrochemical Refining Processes: Cracking (Steam Cracking, Hydrocracking, Fluid Catalytic Cracking), Reforming and Aromatisation, Isomerisation Processes, Dimerization and Polymerization, Aromatic Alkylation, Oxidation Processes, Hydrogenation and Dehydrogenation. -Products: Polymers and Plastics, Lubricants, Speciality and Fine Chemicals (Adhesives, Fragrances, Flavours etc...), Fibres, Pharmaceuticals.
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