Progress Of Plasma Oxidation Of Pm From A Diesel Engine

2017 IEEE International Conference on Plasma Science (ICOPS) Pub Date : 2017-05-21 DOI:10.1109/PLASMA.2017.8496370

S. Yao

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Abstract

Plasma oxidation of particulate matter (PM) from a diesel engine has been obtained much attention as it can solve some problems which current PM removal technologies cannot overcome. This report summaries plasma oxidation of PM from basic study to practical application. Firstly, PM oxidation was confirmed with a single pulse discharge technology using a streak camera equipped with a monochromator. The thermal combustion of some carbon materials (main component of PM) was characterized using a thermal gravity with a mass spectrometer, the results show that PM with oxygen/hydrogen bonds has a lower combustion temperature. The mechanism of PM plasma oxidation is that PM is first oxidized and then burn off by analyzing PM distributions with and without plasmas. For a practical use of plasma PM oxidation, the waveform types of pulse power supplies and dielectric barrier discharge (DBD) reactors were developed and evaluated, on which a pulse power supply and DBD reactor can be designed. Recently, special plasma-catalytic reactor for PM oxidation was developed, it was found that PM, hydrocarbon, and NOx can be simultaneously removed. The future development of plasma-catalytic PM oxidation is given.

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等离子体氧化某柴油机中Pm的研究进展

等离子体氧化处理柴油机中颗粒物(PM)因能解决当前颗粒物去除技术所不能克服的一些问题而受到广泛关注。本文综述了PM的血浆氧化从基础研究到实际应用。首先，使用配备单色仪的条纹相机，用单脉冲放电技术确认PM氧化。用热重质谱仪表征了一些碳材料(PM的主要成分)的热燃烧过程，结果表明，含氧/氢键的PM具有较低的燃烧温度。通过分析有等离子体和无等离子体时PM的分布，发现PM首先被氧化，然后燃烧。针对等离子体氧化PM的实际应用，研究了脉冲电源和介质阻挡放电(DBD)反应器的波形类型，并在此基础上设计了脉冲电源和DBD反应器。近年来，研究人员开发了用于PM氧化的等离子体催化反应器，发现可以同时去除PM、碳氢化合物和NOx。展望了等离子体催化氧化PM的发展前景。

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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2017 IEEE International Conference on Plasma Science (ICOPS)

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