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O_3/N_2气氛下离线再生DPF的影响因素 被引量:2

Influencing Factors of DPF Off-Online Regeneration Under O_3/N_2 Atmosphere
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摘要 建立了O_3/N_2气氛下柴油机微粒捕集器(DPF)离线再生的数值模型,探究了气源位置、气源流量和O_3浓度等因素对DPF离线再生的影响规律,并对再生模型进行了验证.结果表明:在O_3/N_2气氛下对DPF进行离线再生,最大温度梯度远小于该DPF的安全温度梯度限值.减小气源距DPF前端的流通距离,适当增大气源流量和O_3浓度均有利于提高再生速率.但O_3浓度过大会导致再生过程中壁面温度峰值显著增大.对DPF离线再生影响因素的数值模拟进行研究,对进一步开展的O_3/N_2气氛下DPF的离线再生试验起到理论指导作用. Effect of the gas source sites,the gas source flow and O_3 concentration on the diesel particulate filter(DPF)off-online regeneration was studied,through numerical model.The numerical model was validated under O_3/N_2 atmosphere.Results show that wall temperature gradient of DPF off-online regeneration is much less than the safe gradient temperature of this DPF under O_3/N_2 atmosphere.Shortening the distance between gas source and the DPF front,increasing appropriate gas source flow rate and O_3 concentration are effective to improve the efficiency of regeneration.However,over high O_3 concentration will lead to the peak of wall temperature a significant increase.DPF off-online regeneration simulation can provide further guidance to the experimental study of DPF off-line regeneration under O_3/N_2 atmosphere.
作者 徐辉 蔡忆昔 李小华 施蕴曦 李伟俊
机构地区 江苏大学汽车与交通工程学院
出处 《内燃机学报》 EI CAS CSCD 北大核心 2016年第1期81-86,共6页 Transactions of Csice
基金 国家自然科学基金资助项目(51176067) 江苏省高校优势学科建设资助项目(PDPA) 江苏省"六大人才高峰"资助项目(2013-ZBZZ-036) 江苏大学高级人才启动基金资助项目
关键词 柴油机 微粒捕集器 离线再生 壁面温度 再生效率 diesel engine diesel particulate filter off-online regeneration wall temperature efficiency of regeneration
分类号 TK421.5 [动力工程及工程热物理—动力机械及工程]
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参考文献18

  • 1Shim B J, Park K S, Koo J M, et al. Estimation of soot oxidation rate in DPF under carbon and non-carbon based particulate matter accumulated condition [J]. In?ternational Journal Automotive Technology, 2013, 14 (2): 207-212.
  • 2Chen K, Martirosyan K S, Luss D. Soot combustion dynamics in a planar diesel particulate filter [J]. Indus?trial and Engineering Chemistry Research, 2009, 48(7): 3323-3330.
  • 3Okubo M, Kuroki T, Kawasaki S, et al. Continuous regeneration of ceramic particulate filter in stationary diesel engine by non-thermal-plasma induced ozone in?j ection [J]. IEEE Transactions on Industry Application, 2009, 45(5): 1568-1574.
  • 4Michael P Walsh. Global trends in diesel particulate con?trol-A: 1998 update [C]II SAE Paper. Detroit, MI, USA, 1998, 980186.
  • 5Chen K, Martirosyan K S, Luss D. The gradients within a soot layer during DPF regeneration [J]. Chemi?cal Engineering Science, 2011, 66 (13): 2968-2973.
  • 6Kazuhiro Yamamoto, Kazuki Yamauchi. Numerical simulation of continuously regeneration diesel particulate filter [J]. Proceedings of the Combustion Institute, 2013, 34(2): 3083-3090.
  • 7Veronica Rico Perez, Agustin Buneo-L6pez. Ctalytic regeneration of diesel particulate filter: Comparison of Pt and CePr active [J]. Chemical Engineering Journal, 2015, 279: 79-85.
  • 8Okubo M, Arita N, Kuroki T, et al. Carbon particulate matter incineration in diesel engine emissions using indi?rect non-thermal plasma processing [J] . Thin Solid Films, 2007, 515 (9): 4289-4295.
  • 9Grundmann J, Muller S, Zahn R J. Treatment of soot by dielectric barrier discharges and ozone [J]. Plasma Chemistry and Plasma Processing, 2005, 25 (25) : 455-466.
  • 10Shi Yunxi, Cai Yixi, Li Xiaohua, et al. Mechanism and method of DPF regeneration by oxygen radical gen?erated by NTP technology [J]. International J oumal of Automotive Technology, 2014, 15 (6): 871-876.

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内燃机学报
2016年 第1期

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