Development and Performance Evaluation of a Fixed Batch-type Pyrolysis Reactor for Bio-oil Production from Plastic Wastes

Journal of Engineering Advancements Pub Date : 2023-03-22 DOI:10.38032/jea.2023.01.004

T. Mogaji, Anthony Omoaka, O. Z. Ayodeji

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Abstract

A fixed bed batch-type bioreactor for pyrolyzing used or discarded plastic wastes was developed and its performance was evaluated. This research explored the option of converting the high-density polyethylene (HDPE) category of plastic wastes into useful bio-oil in the developed pyrolysis fixed-bed batch reactor. The developed 5 kg batch-type pyrolysis system powered by liquified petroleum gas (LPG) was designed and simulated with SolidWorks computer software to confirm its functionality, fabricated with locally sourced materials, and evaluated with HDPE plastic wastes sorted from dumpsites within the Akure metropolis. The developed reactor evaluation result justified that the pyrolysis reactor has the potential to produce 1.4575 kg of bio-oil per kilogram of liquefied petroleum gas (LPG) consumed. The pyrolytic oil obtained at pyrolysis temperature between 280oC-520oC in this work was thereafter assayed for its composition and fuel properties analyses. The results of the characterization indicated that the pyrolysis of plastic HDPE wastes is a good source of alternative fuel as it shows proximity to the physiochemical characteristics of conventional diesel.

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固定式间歇式塑料垃圾生物油裂解反应器的研制及性能评价

研制了一种固定式间歇式生物反应器，用于废旧塑料废弃物的热解，并对其性能进行了评价。本研究探索了在开发的热解固定床间歇式反应器中将高密度聚乙烯(HDPE)类塑料废弃物转化为有用的生物油的选择。开发的5公斤间歇式热解系统由液化石油气(LPG)驱动，使用SolidWorks计算机软件进行设计和模拟，以确认其功能，使用当地采购的材料制造，并使用从Akure大都市的垃圾场分类的HDPE塑料废物进行评估。开发的反应器评价结果证明，该热解反应器每消耗1公斤液化石油气(LPG)可生产1.4575 kg生物油。在280oC-520oC的热解温度下得到的裂解油进行了成分分析和燃料性能分析。表征结果表明，HDPE塑料废弃物热解具有接近常规柴油的理化特性，是一种很好的替代燃料来源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Engineering Advancements

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