OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

科技导报 2015

柴油发动机尾气纳米颗粒演变的TEMOM-LES模型

DOI: 10.3981/j.issn.1000-7857.2015.06.010, PP. 64-68

刘慧洁,于明州,尹招琴,江影

Keywords: 大涡模拟,泰勒展开矩方法,尾气,均匀成核,低燃硫量,纳米颗粒

Full-Text Cite this paper Add to My Lib

Abstract:

中国雾霾主要成因是包括柴油发动机在内的污染源排放导致的二次颗粒物,本文针对柴油发动机尾气排放的颗粒物进行研究,主要关注极大数目微纳米颗粒的综合效应导致的颗粒参数的变化,次了解根据不同柴油含硫标准下产生的颗粒物的分布情况。通过把针对尺度谱演变问题的泰勒展开矩方法(TEMOM)和大涡模拟方法(LES)技术进行结合,研究了排气管附近柴油二次颗粒物的演变过程,并在相同流动工况条件下,对加拿大、新加坡、欧盟、美国、俄罗斯、中国和日本不同国家和地区不同柴油含硫标准所导致的二次颗粒物的总颗粒数浓度、总体积浓度和颗粒大小进行了对比研究。结果显示,颗粒物在近排气管处主要分布在射流剪切层,颗粒数浓度和颗粒物直径的最大值在距离喷嘴0.6m附近产生,在射流下游,射流与下游空气混合稀释效应明显,颗粒数浓度和颗粒直径趋于一稳定值。通过研究时间平均颗粒场的分布发现,低燃硫量柴油尾气产生的颗粒数浓度比高燃硫量产生的颗粒数浓度低4个数量级,产生的颗粒体积浓度最大相差6个数量级。

References

[1]	陈友方, 曹建国, 牟小云, 等. 汽车发动机原理与汽车理论[M]. 重庆: 重庆大学出版社, 2003: 161-171. Chen Youfang, Cao Jianguo, Mou Xiaoyun, et al. Automotive principle and theory[M]. Chongqing: Chongqing University Press, 2003: 161-171.
[2]	Myung C L, Park S. Exhaust nanoparticle emissions from internal com-busition engines: A review[J]. International Journal of Automotive Tech-nology, 2012, 13(1): 9-22.
[3]	Yu M Z, Lin J Z, Chan T L. Numerical simulation for nucleated vehicle exhaust particulate matters via the TEMOM/LES method[J]. International Journal of Modern Physics C, 2009, 20(3): 399-421.
[4]	Guo S, Hu M, Zamora M L, et al. Elucidating severe urban haze forma-tion in China[J]. Proceedings of the National Academy of Sciences, 2014, 111(49): 17373-17378.
[5]	Li N, Fu T M, Cao J, et al. Sources of secondary organic aerosols in the Pear River Delta region in fall: Contributions from the aqueous reactive uptake of dicarbonyls[J]. Atmospheric Environment, 2013, 76: 200-207.
[6]	Kumar P, Pirjola L, Ketzel M, et al. Nanoparticle emissions from 11 non-vehicle exhaust sources: A review[J]. Atmospheric Environment, 2013, 67: 252-277.
[7]	王贺武, 刘浩学. 柴油车烟雾排放量测试新方法[J]. 交通运输工程学报, 2002, 2(4): 43-48. Wang Hewu, Liu Haoxue. The new measurement method of diesel car smoke emission[J]. Journal of Transportation Engineering, 2002, 2(4): 43-48.
[8]	Kittelson D B. Engines and nanoparticles: A review[J]. Journal of Aerosol Science, 1998, 29(5/6): 575-588.
[9]	Yu M Z, Lin J Z, Chen L H. et al. Large eddy simulation of planar jet flow with nanoparticle coagulation[J]. Acta Mechanica Sinica, 2006, 22 (4): 293-300.
[10]	Yu M Z, Lin J Z, Chen L H. Nanoparticle coagulation in a planar jet via moment method[J]. Applied Mathematics and Mechanics, 2007, 28 (11): 1445-1453.
[11]	Uhrner U, Lowis S V, Vehkamaki H, et al. Dilution and aerosol dynamics within a diesel car exhaust plume-CFD simulations of on-road mea-surement conditions[J]. Atmospheric Environment, 2007, 41: 7440-7461.
[12]	Vehkamaki H, Kulmala M, Jlehtinen K E. Modeling binary homoge-neous nucleation of water-sulfuric acid vapours: Parameterization for high temperature emissions[J]. Envirionment Science and Technology, 2003, 37(15): 3392-3398.
[13]	Pratsins S E, Simultaneous nucleation, condensation, and coagulation in aerosol reactor[J]. Journal of Colloid and Interface Science, 1988, 124(2): 416-417.
[14]	韩德奇, 常聪芳, 陈明, 等. 柴油低硫技术及对我国柴油低硫化的建议[J]. 石油化工技术经济, 2003, 19(4): 8-10. Han Deqi, Chang Chongfang, Chen Ming, et al. Low sulfur technology diesel and diesel low sulfide suggestions to our country[J]. Techno-Economics in Petrochemicals, 2003, 19(4): 8-10.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133