Analysis of the potential of electro-waste as a source of hydrogen to power low-emission vehicle powertrains.

Combustion Engines Pub Date : 2023-08-04 DOI:10.19206/ce-169494

Mateusz Wesołowski, Mohamad Hamid, Piotr Mońka, A. Janicka

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Abstract

The decarbonisation of transport is one of the key aspects in the context of environmental protection. These emissions are particularly noticeable in highly urbanised areas, where the possibility of dispersal of harmful substances is much lower. A way to improve emission factors is the introduction of hydrogen vehicles. Burning hydrogen in engines significantly reduces emissions of harmful substances into the atmosphere compared to the combustion of conventional fuels used today. Hydrogen can be obtained by gasifying waste in a steam atmosphere. Electronic waste is a special type of waste characterised by a high degree of commingling, which makes it difficult to treat. The volume of this type of waste is increasing year on year. As a result of this process, we are able to obtain syngas. This gas, after separation processes, can be a source of hydrogen, an energy carrier that could prove crucial in low-carbon energy or transport applications. This paper presents the results of the gasification of electronic waste, the composition of the syngas obtained in the process and an assessment of the potential of this waste treatment technology to power means of transport.

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分析电子废物作为氢源为低排放汽车动力系统提供动力的潜力。

交通运输的脱碳是环境保护的关键方面之一。这些排放在高度城市化的地区尤其明显，在那里有害物质扩散的可能性要低得多。改善排放因素的一个方法是引入氢燃料汽车。与今天使用的传统燃料燃烧相比，在发动机中燃烧氢可以显著减少有害物质排放到大气中。氢可以在蒸汽气氛中气化废物而得到。电子废物是一种特殊类型的废物，其特点是高度混合，使其难以处理。这类垃圾的数量逐年增加。这个过程的结果是，我们能够获得合成气。这种气体经过分离过程后，可以成为氢的来源，氢是一种能量载体，在低碳能源或运输应用中至关重要。本文介绍了电子废物气化的结果，在此过程中获得的合成气的组成，并评估了这种废物处理技术为交通工具提供动力的潜力。

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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