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柴油机尿素SCR后处理系统排放特性试验研究 被引量:26

Study on Emission Characteristics of Urea-SCR Aftertreatment System of Diesel Engine
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摘要 影响尿素SCR后处理系统性能的因素很多,如喷嘴形式、喷射位置、辅助空气、催化剂性能等。通过发动机台架试验,对影响尿素SCR性能的因素进行了研究。结论如下:喷嘴形式和喷射方向对尿素的雾化和空间分布有很大影响;喷嘴距离催化剂越远转化效率越高;本系统采用0.2 MPa的辅助空气压力较为理想;NOx的转化效率随着催化剂温度的升高而提高;催化剂温度越低其储氨能力越强;SCR催化剂对NO与NO2的比例、HC和CO的浓度有影响。 The performance of urea-SCR aftertreatment system is affected by many factors,such as spray type,position of injection,air-blast system and characteristics of catalyst,etc.The study of urea-SCR system performance made on engine test bench reveals that spray type and direction of injection have a great influence on urea solution atomization and spatial distribution;distance between the spray nozzle and the catalyst the greater,the conversion efficiency the better;for the urea-SCR system used here,air-blast pressure of 0.2 MPa is suitable;NOx conversion efficiency increases with catalyst temperature rising;the catalyst temperature the lower,its storing ammonia capacity the greater;and the SCR may affect ratio of NO and NO2 and concentration of HC and CO.
作者 姜磊 葛蕴珊 李璞 刘志华
机构地区 北京理工大学机械与车辆学院
出处 《内燃机工程》 EI CAS CSCD 北大核心 2010年第5期30-35,共6页 Chinese Internal Combustion Engine Engineering
关键词 内燃机 尿素 氮氧化物 选择性催化还原 转化率 IC engine urea NOx SCR conversion efficiency
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10

  • 1Helden V R,Verbeek R,Willems F,et al.Optimization of urea SCR deNOx system for HD diesel engines[C]//SAE 2004-01-0154,2004.
  • 2Lambert C,Cavataio G,Cheng Y S,et al.Urea-SCR and DPF system for tier 2 diesel light-duty trucks[R].Michigan:US Department of Energy Diesel Engine Emission Reduction (DEER) conference,2006.
  • 3Hesser M,Luders H,Henning R S.SCR technology for NOx reduction:series experience and state of development[R].Chicago:US Department of Energy Diesel Engine Emission Reduction (DEER) conference,2005.
  • 4Koebel M,Strutz E O.Thermal and hydrolytic decomposition of urea for automotive selective catalytic reduction systems:thermochemical and practical aspects[J].Industrial & Engineering Chemistry Research,2003,42(12):2093-2100.
  • 5Kusaka J,Sueoka M,Takada K,et al.A basic study on a urea-selective catalytic reduction system for a medium-duty diesel engine[J].International Journal of Engine Research,2005(6):11-19.
  • 6Kleemann,Elsener M,Koebel M,et al.Hydrolysis of isocyanic acid on SCR catalysts[J].Industrial & Engineering Chemistry Research,2000,39(11):4120-4126.
  • 7Lambert C,Hammerle R.Technical advantages of SCR technologies for light-duty and heavy-duty diesel vehicle applications[C]//SAE 2004-01-1292,2004.
  • 8Joubert E,Seguelong T,Weinstein N.Review of SCR technologies for diesel emission control:european experience and worldwide perspectives[R].California:US Department of Energy Diesel Engine Emission Reduction (DEER) Conference,2004.
  • 9李儒龙,帅石金,董红义,王建昕,石小燕,贺泓.乙醇选择性催化还原NO_x后处理系统在重型柴油机上的应用研究[J].内燃机工程,2007,28(1):1-5. 被引量:8
  • 10吴小春,吕林.Urea-SCR系统降低柴油机排放试验研究[J].航海技术,2008(1):53-55. 被引量:4

二级参考文献11

  • 1项里程,帅石金,孙建军,王建昕.柴油机稀燃NO_x催化剂的性能评价试验[J].内燃机学报,2004,22(5):444-449. 被引量:6
  • 2Johnson T V.Diesel emission control technology--2003 in review[C].SAE 2004-01-0070.
  • 3Johnson T V.Diesel emission control in review--the last 12 months[C].SAE 2003-01-0039.
  • 4Shuai S J,Wang J X,LI R L.Performance evaluation and application of diesel NOx-SCR catalyst by ethanol reductant[C].SAE 2005-01-1089.
  • 5Thomas J F,Lewis S A,Bunting B G.Hydrocarbon selective catalytic reduction using a silver-alumina catalytic with light alcohols and other reductants[C].SAE 2005-01-1082.
  • 6Kass M D,Thomas J F,Lewis S A.Selective catalytic reduction of NOx emissions from a 5.9 liter diesel engine using ethanol as a reductant[C].SAE 2003-01-3244.
  • 7Miyadera T.Selective reduction of NOx by ethanol on catalysts composed of Ag=Al2O3 and Cu=TiO2 without formation of harmful by-products[J].Applied Catalysis B:Environmental 16 (1998):155-164.
  • 8Xinping Wang,Yan Xu,Shanshan Yu,Chong Wang. The First Study of SCR of NO x by Acetylene in Excess Oxygen[J] 2005,Catalysis Letters(1-2):101~108
  • 9Michael D. Amiridis,Corina Mihut,Marek Maciejewski,Alfons Baiker. The Selective Catalytic Reduction of NO by Hydrocarbons over Pt- and Ir-Based Catalysts[J] 2004,Topics in Catalysis(1-4):141~150
  • 10谭丕强,陆家祥,邓康跃,王均效,王桂华,周兴利.柴油机排放CO-PM预测模型[J].农业机械学报,2003,34(2):20-22. 被引量:1

共引文献9

同被引文献167

引证文献26

二级引证文献149

内燃机工程
2010年 第5期

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