Author:
Lu Kai,Liu Dewen,Wu Yan,Liu Shusen,Bai Shuzhan
Abstract
A new mixer for a diesel engine after-treatment system is developed to meet the requirements of China VI emission regulation. As for the structure of the mixer, it is surrounded by spiral blades, and the center is staggered with small blades, which is conducive to the crushing of urea droplets and can make the droplets fully mixed with air, improve the conversion efficiency of nitrogen oxides (NOx) and reduce ammonia leakage. The numerical analysis, engine bench test, and vehicle road test were carried out on the after-treatment system equipped with the new mixer. The numerical calculation results show that the velocity uniformity index of the selective catalytic reduction (SCR) carrier can reach 0.98, as well as the ammonia uniformity can reach 0.95, meanwhile, the low wall film height shows excellent anti-crystallization properties. engine bench test results are consistent with numerical results. The crystallization status of the mixer after the vehicle durability test is acceptable and well performed.
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering,General Materials Science
Reference28 articles.
1. Martinjak M., Numerical simulation of Selective Catalytic Reduction (SCR) system, Bologna: Faculty of Mechanical Engineering and Naval Architecture, Zagreb University (2016)
2. Multiphase injector modelling for automotive SCR systems: A full factorial design of experiment and optimization
3. Zheng G., Sampath M.K., Alcini W. et al. Design improvements of urea SCR mixing for medium-duty trucks, SAE Paper. Detroit, Michigan, USA, 2013, 2013-01-1074
4. Optimisation design of SCR mixer for improving deposit performance at low temperatures
5. Experimental study on the particulate matter and nitrogenous compounds from diesel engine retrofitted with DOC+CDPF+SCR
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