Production of gasoline octane booster aromatics benzene, toluene and ethylbenzene from multiphase catalytic pyrolysis of mixed waste expanded polystyrene and high density polyethylene

IF 1.1 4区 材料科学 Q4 MATERIALS SCIENCE, COMPOSITES
A. Verma, H. Pramanik
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Abstract

The main objective of this study is to enhance the valuable octane booster aromatics benzene, toluene, and ethylbenzene (BTE) and reduction of styrene in the fuel oil obtained from the pyrolysis of equally mixed waste expanded polystyrene (WEPS) and waste high density polyethylene (WHDPE). This research article, demonstrated the pyrolysis of equally mixed (50 wt.%:50 wt.%) waste expanded polystyrene (WEPS) and waste high-density polyethylene (WHDPE) followed by in situ-hydrogenation and aromatization in a small laboratory scale reactor for the production of value added commodity and gasoline octane boosters mainly benzene, toluene, and ethylbenzene (BTE). Three reactor arrangements i.e., liquid phase/L-type, vapour phase/V-type, and multiphase/M-type were used for conducting the catalytic pyrolysis of feedstock using ZSM-5, ammonium powder as a catalyst. The maximum liquid yield of 87.41 wt.% was obtained for thermal pyrolysis at a temperature of 650°C and at a heating rate of 15°C/min. Whereas, the maximum liquid yield of 82.65 wt.% was obtained for liquid phase/L-type catalytic pyrolysis at a temperature of 600°C, and at a heating rate of 15°C/min. On the other side, vapour phase/V-type and multiphase/M-type catalytic pyrolysis produced a maximum liquid yield of 78.62 wt.% and 74.07 wt.%, respectively at a reaction temperature of 550°C and at the same heating rate. The pyrolysis oil obtained from thermal pyrolysis contained lowest BTE content of 10.43 wt.% and highest styrene content of 66.25 wt.%. Whereas, the highest BTE content of 30.16 wt.% and lowest styrene content of 53.32 wt.% was found in pyrolysis oil obtained from multiphase/M-type catalytic pyrolysis. The quantitative measurement of BTE and styrene content in the pyrolysis oil was made by the gas chromatography (GC) in a flame ionization detector (FID) mode.
膨胀聚苯乙烯与高密度聚乙烯混合废多相催化热解生产汽油辛烷助燃剂芳烃苯、甲苯和乙苯
本研究的主要目的是通过等量混合的废膨胀聚苯乙烯(WEPS)和废高密度聚乙烯(WHDPE)热解得到的燃料油,提高有价值的辛烷助燃剂苯、甲苯和乙苯(BTE)的含量,降低苯乙烯的含量。本研究在小型实验室反应器中,以同等混合(50 wt.%:50 wt.%)的废膨胀聚苯乙烯(WEPS)和废高密度聚乙烯(WHDPE)为原料,进行热解,并进行原位加氢和芳化反应,生产以苯、甲苯和乙苯(BTE)为主的增值商品和汽油辛烷值助燃剂。采用液相/ l型、气相/ v型、多相/ m型三种反应器布置,以ZSM-5、铵粉为催化剂对原料进行催化热解。当温度为650℃,升温速率为15℃/min时,热热解的最大产液率为87.41 wt.%。而液相/ l型催化热解在温度为600℃,升温速率为15℃/min时,产液率最高可达82.65 wt.%。在反应温度为550℃、升温速率相同的条件下,气相/ v型和多相/ m型催化热解的最大产液率分别为78.62 wt.%和74.07 wt.%。热裂解得到的热解油BTE含量最低为10.43 wt.%,苯乙烯含量最高为66.25 wt.%。多相/ m型催化热解油中BTE含量最高,为30.16 wt.%,苯乙烯含量最低,为53.32 wt.%。采用气相色谱(GC)和火焰电离检测器(FID)对热解油中BTE和苯乙烯的含量进行了定量测定。
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来源期刊
Progress in Rubber Plastics and Recycling Technology
Progress in Rubber Plastics and Recycling Technology MATERIALS SCIENCE, COMPOSITES-POLYMER SCIENCE
CiteScore
4.40
自引率
7.70%
发文量
18
审稿时长
>12 weeks
期刊介绍: The journal aims to bridge the gap between research and development and the practical and commercial applications of polymers in a wide range of uses. Current developments and likely future trends are reviewed across key areas of the polymer industry, together with existing and potential opportunities for the innovative use of plastic and rubber products.
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