A numerical study on soot formation and oxidation for a direct injection diesel engine

N. Sung; S. Lee; H. Kim; B. Kim

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A numerical study on soot formation and oxidation for a direct injection diesel engine

机译：直喷式柴油机烟灰形成和氧化的数值研究

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A numerical cycle model is developed to investigate the soot production in a direct injection (DI) diesel engine. The Surovikin and Fusco models for soot formation and the Nagle model for soot oxidation are used with the KIVA-3V code. In the Surovikin model, carbon radicals are produced from pyrolysis of fuel and soot particles grow through collisions with fuel molecules. In the Fusco model, the carbon radicals and acetylene are formed from pyrolysis of fuel. There, acetylene works for the growth of soot panicles. From investigation of the effects of the operating conditions on soot formation and oxidation, it is round that soot formation is mainly governed by fuel concentration and combustion temperature and soot oxidation is more dependent on combustion temperature. The air fuel ratio affects soot formation more than injection timing. For a stoichiometric mixture ratio, soot formation is increased because of the high combustion temperature.

机译：开发了一个数值循环模型来研究直喷（DI）柴油机中的烟尘产生。 KIVA-3V代码使用了Surovikin和Fusco的烟灰形成模型和Nagle的烟灰氧化模型。在Surovikin模型中，碳是由燃料的热解产生的，烟灰颗粒通过与燃料分子的碰撞而生长。在Fusco模型中，碳自由基和乙炔是由燃料的热解形成的。乙炔在那里促进烟灰穗的生长。通过研究工作条件对烟灰形成和氧化的影响，可以得出结论，烟尘形成主要受燃料浓度和燃烧温度支配，烟尘氧化更多地取决于燃烧温度。空气燃料比对炭黑形成的影响大于喷射正时。对于化学计量的混合比，由于高的燃烧温度而增加了烟灰的形成。

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《Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering》 |2003年第d5期|共11页
作者
N. Sung; S. Lee; H. Kim; B. Kim;
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正文语种 eng
中图分类运输机械;
关键词
Diesel engine; Soot formation; Soot oxidation; KIVA;

机译：柴油机;烟灰形成;烟尘氧化;KIVA;

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1. A numerical study on soot formation and oxidation for a direct injection diesel engine [J] . N. Sung, S. Lee, H. Kim, Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2003,第d5期

机译：直喷式柴油机烟灰形成和氧化的数值研究
2. Numerical Modeling and Experimental Study of Combustion and Soot Formation in a Direct Injection Diesel Engine [J] . T. L. Chan, X. B. Cheng Energy & fuels . 2007,第3期

机译：直喷式柴油机燃烧和烟灰形成的数值模拟和实验研究
3. Studies of NO{sub}x, CO, soot formation and oxidation from a direct injection stratified-charge engine using the κ-ε turbulence model [J] . S. H. Mansouri, Y. Bakhshan Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2001,第D1期

机译：使用κ-ε湍流模型研究直接喷射分层装料发动机的NO {sub} x，CO，烟灰形成和氧化
4. A Numerical Modelling and Experimental Study on Soot Formation for a Direct Injection Diesel Engine [C] . Cheng Xiaobei, Jv Hongling, Wang Zhaowen SAE International Powertrains, Fuels and Lubricants Congress . 2008

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5. Soot and nitric oxide(x) emissions and combustion characteristics of direct injection diesel engine. [D] . Saad, Messiha Todary. 1993

机译：直喷柴油机的烟尘和一氧化氮（x）排放及燃烧特性。
6. Synthesis and characterization of Argania spinosa (Argan oil) biodiesel by sodium hydroxide catalyzed transesterification reaction as alternative for petro-diesel in direct injection compression ignition engines [O] . Adewale Johnson Folayan, Paul Apeye Lucky Anawe 2019

机译：氢氧化钠催化酯交换反应替代汽油在直喷压燃发动机中的应用合成和表征Argania spinosa（Argan油）生物柴油
7. Numerical modeling and experimental study of combustion and soot formation in a direct injection diesel engine [O] . Chan TL, Cheng XB 2007

机译：直喷式柴油机燃烧和烟灰形成的数值模拟和实验研究

A numerical study on soot formation and oxidation for a direct injection diesel engine

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