Removal of Carbon Nanoparticle Using NO2 Oxidation Technique

Jae Hee Jung; Jung Bum Choo; Sang Soo Kim

doi:10.4028/www.scientific.net/MSF.569.201

Paper Titles

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The Effect of Alloying Cu on Pitting Corrosion Resistance of Copper-Bearing Ferritic Stainless Steel
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Removal of Carbon Nanoparticle Using NO₂ Oxidation Technique
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Effect of MSW Incineration Bottom Ash in Clay Based Ceramics
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Manufacturing of Construction Materials from Municipal Incinerator Residue
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Adsorption Behavior of Barley Straw Carbon for Chromium (VI) Ion
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HomeMaterials Science ForumMaterials Science Forum Vol. 569Removal of Carbon Nanoparticle Using NO2 Oxidation...

Removal of Carbon Nanoparticle Using NO₂ Oxidation Technique

Abstract:

In diesel engine, generally, the removal of carbon nanoparticles has been based on a filtration system or oxidation reactor with O2 at high temperatures of above 800 °C. Recently, NO2 has been found to be a more efficient oxidant than O2 at lower temperatures in the range of 200~500 °C. Small amounts of NO2 in the range of a few hundreds of ppm by volume can promote the continuous oxidation of carbon particulates. Thus far, experiments involving diesel PM (particulate matter) oxidation by NO2 are only practiced as regards the soot deposited on filters or plates. However, in aerosol state, depending on the surrounding temperature and the NO2 concentration, the carbon nanoparticle removal rate is significantly different. Therefore, the study of nano-sized carbon aerosol oxidation in various gas circumstances is required. In this study, the oxidation characteristics of nano-sized carbon aerosol particles in NO2 condition are investigated.

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Periodical:

Materials Science Forum (Volume 569)

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201-204

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https://doi.org/10.4028/www.scientific.net/MSF.569.201

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January 2008

Authors:

Jae Hee Jung, Jung Bum Choo, Sang Soo Kim

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Carbon Nanoparticles, NO₂ Oxidation Technique

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