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Urea Systems in Focus - New Challenges and Solutions in the Development of Car and Commercial Vehicle Exhaust Systems
Technical Paper
2008-01-1186
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
One of the main thrusts of development when it comes to exhaust systems with integrated Selective Catalytic Reduction (SCR) technology lies in the area of urea processing in front of the SCR catalytic converter. In contrast to conventional exhaust systems with single-phase gas flow, the complex processes in this area call both for new development methods and new components in the exhaust system. Due to the need of homogeneous urea distribution in front of the SCR catalyst to improve the NOx reduction inside the SCR catalyst the usage of convenient mixing devices is mandatory in the majority of cases. Eberspächer has developed various mixers which can significantly enhance the preparation of urea, shorten the necessary mixing section and in some cases make possible the constructive use of SCR technology in actual platforms.
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Oesterle, J., Calvo, S., Damson, B., Feyl, G. et al., "Urea Systems in Focus - New Challenges and Solutions in the Development of Car and Commercial Vehicle Exhaust Systems," SAE Technical Paper 2008-01-1186, 2008, https://doi.org/10.4271/2008-01-1186.Also In
References
- http://www.dieselnet.com/standards
- Boer Hegedus Goulker Zak “Controlling power plant NO 2 emissions” Chemtech 312 319 May 1990
- http://www.dieselnet.com/tech/cat_mat.html
- Kröcher O. et al. “Chemical challenges in the development of urea-SCR systems” International CTI Forum SCR-System Karlsruhe May 2007
- Calvo S. et al. “Possibilities of Optimising SCR Systems Through Improved Urea Preparation” International CTI Forum SCR System Stuttgart October 2007
- Birkhold F. Meingast U. Wassermann P. “Analysis of the injection of urea-water solution for automotive SCR DeNO x systems: modelling of two-phase flow and spray/wall interaction” SAE 2006-01-0643