Magnetic induction assisted pyrolysis of plastic waste to liquid hydrocarbons on carbon catalyst

Materials Today Catalysis Pub Date : 2023-10-04 DOI:10.1016/j.mtcata.2023.100028

Cuong Duong-Viet , Lai Truong-Phuoc , Lam Nguyen-Dinh , Christophe Michon , Jean-Mario Nhut , Charlotte Pham , Housseinou Ba , Cuong Pham-Huu

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Abstract

Carbon-based catalyst can effectively crack model waste plastic based on polyolefins under contactless induction heating and yield gaseous and liquid hydrocarbons fractions at mild reaction temperatures. High catalytic performances are reached thanks to the stable catalyst bed temperature arising from the high heating rate of the induction setup. By comparison to indirect Joule heating which required much higher temperatures, contactless direct induction heating allows a compensation of the internal temperature loss during such highly endothermic process through direct heat targeting. The single carbon-based catalyst combined a high and stable activity with an extremely high stability as a function of cycling tests with pure or mixed polymers. By comparison to the acid or metal based catalysts used in plastic cracking, such low cost carbon catalyst avoids deactivation within cycling tests and therefore provides an efficient and cost-effective route for waste plastic recycling and also as chemical storage means for renewable energy.

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在碳催化剂上，磁感应辅助塑料废弃物热解成液态烃

碳基催化剂可以在非接触感应加热下有效地裂解基于聚烯烃的废塑料模型，并在温和的反应温度下产生气态和液态烃馏分。由于感应装置的高加热速率产生了稳定的催化剂床温度，因此达到了高催化性能。与需要更高温度的间接焦耳加热相比，非接触式直接感应加热允许通过直接热靶向补偿这种高度吸热过程中的内部温度损失。作为纯聚合物或混合聚合物循环试验的函数，单一碳基催化剂结合了高且稳定的活性和极高的稳定性。与塑料裂解中使用的酸或金属基催化剂相比，这种低成本的碳催化剂避免了循环试验中的失活，因此为废塑料回收和可再生能源的化学储存手段提供了一种有效且经济高效的途径。

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来源期刊

Materials Today Catalysis

CiteScore

0.40

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0.00%

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