PLASMA ТECHNOLOGY AND EQUIPMENT FOR MEDICAL WASTE PROCESSING

ГОРЕНИЕ И ПЛАЗМОХИМИЯ Pub Date : 2022-02-21 DOI:10.18321/cpc477

A. Mosse, G. Paskalov

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Abstract

In the technology of processing medical waste, including waste generated during a pandemic, the main generally accepted methods are thermal, using fuel or plasma furnaces, for combustion in an oxygen-containing environment or for pyrolysis in a reducing atmosphere to produce synthesis gas (H2 and CO) that can be further used for the chemical industry or as a fuel. Moreover, direct combustion or pyrolysis of the initial solid waste, which ensures the gasification of its organic components, is usually only the first stage of the general technological process. In general, it consists of three stages. At the second stage, the gas products of the first stage are brought to a predetermined composition, at the third stage, the inorganic residue is neutralized - ash, the formation of which is up to 20% of unsorted medical waste. A promising option for the technology under consideration is the use of electric arc plasma installations. Compared to non-plasma furnaces, even those using intensive gas-dynamic operating modes, a number of significant advantages are achieved: a decrease in the volume of the furnace (while maintaining the productivity of raw materials) and a decrease in the volume of exhaust gases by about an order of magnitude with an increase in temperature in the reaction zone of the furnace to 2000–2300 °C.

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血浆Тechnology及医疗废物处理设备

在处理医疗废物(包括大流行期间产生的废物)的技术中，普遍接受的主要方法是热能，使用燃料或等离子炉，在含氧环境中燃烧或在还原气氛中热解，以产生合成气(H2和CO)，可进一步用于化学工业或作为燃料。此外，确保其有机成分气化的初始固体废物的直接燃烧或热解通常只是一般工艺过程的第一阶段。一般来说，它包括三个阶段。在第二阶段，将第一阶段的气体产物制成预定的成分，在第三阶段，将无机残留物中和-灰，其形成率高达未分类医疗废物的20%。正在考虑的技术的一个有前途的选择是使用电弧等离子装置。与非等离子体炉相比，即使是那些使用密集气体动态操作模式的炉，也实现了许多显著的优势:炉的体积减小(同时保持原材料的生产率)，并且随着炉的反应区温度升高到2000-2300°C，废气体积减少了大约一个数量级。

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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