Transactions of the Korean Society of Automotive Engineers (한국자동차공학회논문집)

The Korean Society of Automotive Engineers (한국자동차공학회)
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PM Reduction Efficiency using Metal Type DPF

금속 DPF를 이용한 입자상물질의 저감효율에 관한 연구

  • Rah, Wan Yong (Department of Automotive Engineering, Shinsung University)
  • 나완용 (신성대학교 자동차공학과)
  • Received : 2013.07.01
  • Accepted : 2013.07.09
  • Published : 2013.09.01
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Abstract

After-treatment apparatus ceramic DPF (diesel particulate filter) have been applied to reduce harmful particulate matters(PM) among emissions from diesel engines so far, but they are easy to be fragile and weak in thermal shock. This research aims to investigate a metal type filter which is superior in mechanical strength and heat conduction rate and is beneficial economically in manufacturing. Basic performance of metal DPF such asloading test, temperature gradient test, thermal shock test, heat resistant test and back pressure was carried out. And then their experimental data provided key informations in designing and manufacturing such as detailed structures of metal mesh filter. Also diesel engine and vehicle of 2957cc displacement was tested under lug-down 3 mode and CVS-75 mode. PM reduction efficiency was 54.5% using metal DPF without loss of performance and fuel consumption.

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References

  1. Y. J. Lee, G. C. Kim, Y. D. Pyo and Y. I. Jeong, "Analysis of DPF Regeneration Characteristics of Peugeot 607 HDI Diesel Passenger Car," KASE Spring Conference Proceedings, pp.184-190, 2003.
  2. N. Jeuland, B. Dementhon, G. Plassat, P. Coroller, J. C. Momique and G. Belot, "Performances and Durability of PDF (Diesel Particulate Filter) Tested on a First and Second Test Phases Results," SAE 2002-01-2790, 2002.
  3. M. Koebel, M. Elsener and G. Madia "Reduction Pathways in the Selective Catalytic Reduction Process with NO and $NO_2$ at Low Temperatures," Ind. Eng. Chem. Res., Vol.40, Issue 1, pp.52-59, 2001. https://doi.org/10.1021/ie000551y
  4. G. Koltsakis, D. Katsaounis, I. Markomanolakis and Z. Samaras, "Metal Foam Substrate for DOC and DPF Applications," SAE 2007-01-0659, 2007.
  5. P. Richards, M. Vincent, K. Johansen and G. Mogensen, "Metal Emissions, $NO_2$ and HC Reduction from a Base Metal Catalysed DPF/FBC System," SAE 2006-01-0420, 2006.