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Effect of Engine Operating Conditions on Nanostructure and Oxidation Reactivity of Soot Particles from Diesel Engine

机译：发动机工况对柴油机碳烟颗粒纳米结构和氧化反应性的影响

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Effect of engine operating conditions on nanostructure and oxidation reactivity of soot particles from diesel engine was investigated experimentally. The soot nanostructure, i.e., the graphitic crystallite size and the amorphous carbon content in the soot particles, was characterized by Raman spectroscopy. Oxidation reactivity of soot was evaluated by temperature-programmed oxidation (TPO). The soot Raman spectra showed that the size of graphitic crystallite in the soot increases with increasing exhaust temperature resulting from the increase of the engine load. In addition, the graphitic crystallite size of soot obtained during lower engine speed was slightly larger than that of higher engine speed of same exhaust temperature. The results of TPO indicated that the oxidation reactivity of soot decreases with the increase of graphitic crystallite size.

机译：实验研究了发动机工况对柴油机烟尘颗粒纳米结构和氧化反应性的影响。通过拉曼光谱法表征了烟灰纳米结构，即，石墨微晶尺寸和烟灰颗粒中的无定形碳含量。烟灰的氧化反应性通过程序升温氧化（TPO）进行评估。烟灰拉曼光谱显示，烟灰中石墨微晶的尺寸随着发动机负荷增加而导致排气温度升高而增加。另外，在相同排气温度下，在较低的发动机转速下获得的烟灰的石墨微晶尺寸稍大于较高的发动机转速。 TPO的结果表明，烟灰的氧化反应性随石墨微晶尺寸的增加而降低。

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林田, 和宏; 宇野, 昌行; 石谷, 博美; HAYASHIDA, Kazuhiro; UNO, Masayuki; ISHITANI, Hiromi;
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年度 2013
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2. Experimental Analysis of the Morphology and Nanostructure of Soot Particles for Butanol/Diesel Blends at Different Engine Operating Modes [J] . Verma Puneet, Jafari Mohammad, Guo Yi, Energy & fuels . 2019,第JUNa期

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3. Analysis of Soot Particles Emitted from a Modern Light Duty Diesel Engine Running in Different Operating Conditions using Field Flow Fractionation and Granulometric Techniques [J] . James R. Kassab, Richard A. Zahoransky Journal of liquid chromatography and related technologies . 2007,第9a12期

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5. Prediction of Number Density, Volume Fraction and Size Distribution of Soot Particles in a Diesel Engine under Various Operating Conditions [C] . Jaeseo Lee, Kang Y. Huh SAE World congress;Multi-dimensional engine modeling session . 2012

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Effect of Engine Operating Conditions on Nanostructure and Oxidation Reactivity of Soot Particles from Diesel Engine

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