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Measurements of Size Distribution and Oxidation Rate of PM with NO 2
Technical Paper
2015-01-1995
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
In the exhaust gas after-treatment, it is difficult to evaluate the oxidation process of diesel soot, because we cannot observe the variation of particle size and the number concentration directly. Moreover, characteristics of soot depend on fuel properties, gas component, and engine conditions. Then, we used carbon particles as model soot, and particle size and its number concentration were experimentally measured in the presence of NO2. The particle size was measured by SMPS, together with the measurement of CO and CO2. Results show that, in the presence of NO2, the oxidation rate is close to the value of diesel soot with catalyzed DPF.
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Citation
Yamamoto, K. and Kanamori, Y., "Measurements of Size Distribution and Oxidation Rate of PM with NO2," SAE Technical Paper 2015-01-1995, 2015, https://doi.org/10.4271/2015-01-1995.Also In
References
- Kennedy I.M. Proc. Combust. Inst. 31 2007 2757 2770
- Kittelson D.B. J. Aerosol Science 29 5/6 1998 575 588
- Searles R.A. , Bosteels D. et al. F02E310, FISITA 2002 World Congress 2002 1 17
- Hamada H. , and Obuchi A. Engine Technology 6 4 2004 14 20
- Official Journal of the European Union, Regulation (EC) No. 595/2009 July 18 2009
- Johnson , T. Review of Diesel Emissions and Control SAE Int. J. Fuels Lubr. 3 1 16 29 2010 10.4271/2010-01-0301
- Koltsakis G.C. , Stamatelos A.M. Prog. Energy Combust. Sci. 23 1997 1 39
- Park D.S. , Kim J.U. , Kim E.S. Combust. Flame 114 1998 585 590
- Kimura M. , Muramatsu T. et al. SAE technical paper 2011-01-0295 2011 9 17
- Cooper B.J. , Jung H.J. , Toss J.E. US Patent, 4902487 1990
- Hawker P. Platinum Metals Rev. 39 1995 2 8
- Yamamoto K. , Oohori S. , Yamashita H. , Daido S. Proc. Combust. Inst. 32 2009 1965 1972
- Yamamoto K. , Nakamura M. , Yane H. , and Yamashita H. Catalysis Today 153 2010 118 124
- Yamamoto K. , Yamauchi K. Proc. Combust. Inst. 34 2013 3083 3090
- Setiabudi A. et al. Applied Catalysis B 35 2002 159 166
- Setiabudi A. , Makkee M. , Moulijn J.A. Applied Catalysis B 50 2004 185 194
- Jeguirim M. , Tschamber V. , Brilhac J.F. J. Chem. Technol. Biotechnol. 84 2009 770 776
- Tighe C.J. et al. Proc. Combust. Inst. 32 2009 1989 1996
- Shrivastava M. et al. Environ. Sci. Tech. 44 2010 4796 4801
- Wu X. et al. J. Environmental Sci. 23 2011 1205 1210
- Lizarraga L. et al. Environmental Sci. Tech. 45 2011 10591 10597
- Kandylas I. P. , Haralampous , O. A. , and Koltsakis G. C. Ind. Eng. Chem. Res. 41 2002 5372 5384
- Jung J. , Song S. , and Chun K. SAE technical paper 2008-01-0482 2008 1 8
- Tian Z.Y. et al. Proc. Combust. Inst. 34 2013 2261 2268
- Oi-Uchisawa J. , Obuchi A. , Ogata A. , Enomoto R. , Kushiyama S. Applied Catalysis B 21 1999 9 17
- Evans D. E. , Harrison R. M. , Ayres J. G. Aerosol Science and Technology 37 2003 975 978
- Schultze M. et al. Proc. Combust. Inst. 34 2013 2269 2277
- Mathis U. , Kaegi R. , Mohr M. , Zenobi R. Atmospheric Environment 38 2004 4347 4355
- Fennell P.S. , Dennis , J.S. , and Hayhurst A.N. Combust. Flame 151 2007 560 572
- Tsuneyoshi K. , Takagi O. , Yamamoto K. SAE Technical Paper 2011-01-0817 2011 297 305
- Song J. , Alam M. , Boehman , A. L. , and Kim U. Combust. Flame 146 2006 589 604
- Lee K.O. , Seong H. , Choi S.M. Proc. Combust. Inst. 34 2013 3057 3065
- Zhang D. , Ma Y. , Zhu M. Proc. Combust. Inst. 34 2013 1869 1876