authors: Farshid Fakheri1Fardin Eskafi2Zohreh Mansourian3Seyed Hamid Reza Shahmoradi4567
language: English
topic: The pervasive issue of plastic waste within the automotive industry presents both a significant environmental challenge and an opportunity for innovative waste management solutions. This study investigates the application of pyrolysis technology as a sustainable practice within the context of a circular economy. We delineate the process whereby automotive plastic waste is thermally decomposed at high temperatures in an inert atmosphere, yielding reusable hydrocarbons. Methodologically, our research conducts a thorough analysis of the pyrolysis conversion rates, quality of the resulting fuels, and the environmental impact compared to conventional disposal methods. Empirical data for this study was obtained through a theoretical analysis of existing literature. The findings illuminate that pyrolysis not only reduces the volume of plastic waste but also contributes to the conservation of resources by transforming waste into a viable secondary raw material. However, the research identifies potential challenges, such as the need for preprocessing of plastics to remove impurities and the scalability of pyrolysis plants. Our conclusions advocate for the integration of pyrolysis technology in the automotive industry, emphasizing its alignment with circular economy principles and its potential to mitigate environmental pollution, thereby charting a path for ecologically responsible manufacturing practices.
title of the conference: the seventh International Conference on Technology Development in Chemical Engineering
title of the conference: https://chemistryeng.bcnf.ir
author:
paper code: DSI141258236972
paper link: http://scieropub.com/pv/DSI141258236972