Value Addition of Plastic Waste to Fuel

Journal of Chemistry & its Applications Pub Date : 2024-02-29 DOI:10.47363/jcia/2024(3)127

S. Ilaiah, Abhishek kulkarni, Siliveri Sri Krishna Chaitanya

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Abstract

The accumulation of plastic waste has risen tremendously in the last few decades and is posing a significant threat to the environment. To reduce its negative impact various methods of developing biodegradable plastics are underway but there have not been many conclusive steps for the existing problem. The conversion of plastic waste into valuable fuels offers a compelling solution that simultaneously tackles the pressing issues of plastic waste accumulation and the scarcity of traditional fuel sources. The process described here is Pyrolysis. Plastic Pyrolysis is the thermal degradation of plastic waste at different temperatures (300 – 900 °C), in the absence of oxygen. The valuable products obtained from this technique are fuel oil, syn gas, and a solid residue of carbon black. As the calorific value of the fuel oil produced is similar to that of conventional fuels, it can be used as a great alternative. The fuel oil produced needs to be refined before it can be used as a fuel for domestic purposes, vehicles and industries. Plastic pyrolysis is a promising technology for the conversion of plastic waste into needed fuels but further research is required in this field to optimize the process and increase its efficiency.

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塑料废料转化为燃料的增值效应

在过去的几十年里，塑料垃圾的累积量急剧上升，对环境构成了严重威胁。为了减少其负面影响，目前正在采用各种方法开发可生物降解塑料，但针对现有问题，还没有采取许多决定性的措施。将塑料废弃物转化为有价值的燃料提供了一个令人信服的解决方案，同时解决了塑料废弃物堆积和传统燃料来源稀缺的紧迫问题。这里介绍的是热解工艺。塑料热解是在无氧条件下，在不同温度（300 - 900 °C）下对塑料废弃物进行热降解。从这项技术中获得的有价值的产品是燃料油、合成气和碳黑固体残渣。由于生产出的燃料油热值与传统燃料相近，因此可以作为一种很好的替代品。生产出的燃料油需要经过提炼，才能用作家用、车辆和工业燃料。塑料热解是将塑料废弃物转化为所需燃料的一项前景广阔的技术，但仍需在该领域开展进一步研究，以优化工艺并提高效率。

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 Chemistry & its Applications

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