PLASMA TECHNOLOGIES IN THE PROBLEM OF OBTAINING «MORE THAN GREEN HYDROGEN»

ГОРЕНИЕ И ПЛАЗМОХИМИЯ Pub Date : 2022-02-21 DOI:10.18321/cpc478

V. Zhovtyansky, M. Ostapchuk

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引用次数: 2

Abstract

Among the fire methods of various carbonaceous wastes processing, the most common are currently high-temperature technologies for their gasification with the production of hydrogen in gasification products. In terms of the prospects for decarbonization of sectors of the economy, the use of such technologies is carbon-negative, because otherwise waste will rot in landfills and emit methane for 20 years – a greenhouse gas that is 20 times more active than carbon dioxide in terms of climate change. Thus, the carbon contribution is defined as negative in the equivalent of 188 kg of carbon dioxide per MJ compared to 20 kg for hydrogen obtained from carbon and zero for standard green hydrogen. This allowed the authors of some developments to classify the hydrogen obtained from waste as greener than green. The prospects of application of plasma technologies for hydrogen production in relation to the tasks of hydrogen energy in terms of their energy efficiency are discussed on the examples of gasification of sewage sludges and rubber crumbs of worn tires. The analysis of existing empirical dependences for determination of thermophysical characteristics of a wide range of combustible substances is carried out and the most acceptable of them for those types of carbonaceous raw materials which were subjected to gasification in the present work are selected.

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等离子体技术在获得“绿色氢”方面的问题

在各种含碳废物处理的方法中，目前最常见的是高温气化技术，气化产物产氢。就经济部门脱碳的前景而言，使用这些技术是负碳的，因为否则废物将在垃圾填埋场腐烂并在20年内排放甲烷-一种在气候变化方面比二氧化碳活跃20倍的温室气体。因此，碳贡献被定义为负，相当于每兆焦耳产生188公斤二氧化碳，而从碳中获得的氢为20公斤，标准绿色氢为零。这使得一些开发的作者将从废物中获得的氢分类为比绿色更环保。以污水污泥和废旧轮胎橡胶屑的气化为例，从氢能源效率的角度讨论了等离子体制氢技术的应用前景。对测定各种可燃物质的热物理特性的现有经验依赖性进行了分析，并对在本工作中进行气化的那些类型的含碳原料选择了最可接受的依赖性。

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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