CFD Modeling of Processes Upstream of the Catalyst for Urea SCR NOx Reduction Systems in Heavy-Duty Diesel Applications 2011-01-1322
This project is one component of a broader effort whose ultimate goal is to provide CFD-based tools that can be used to optimize the design of urea SCR NOx aftertreatment systems for heavy-duty diesel engines. Here the focus is on predicting the distributions of key chemical species (ammonia, in particular) at the inlet to the catalysts. Two aspects of the physical models have been emphasized: the multi-phase models, and the gas-phase chemistry models. A hierarchy of four simplified geometric configurations has been used for model development and parametric studies, and to establish the appropriate level of physical modeling and numerical fidelity required. The resulting physical and numerical parameters then have been used to model a production SCR system. Initial quantitative comparisons with experimental measurements are encouraging. It is expected that CFD with the level of modeling that has been employed here can provide useful guidance for developing SCR systems that provide good spatial uniformity of ammonia entering the catalysts, while imposing low parasitic pressure drops. Specific recommendations are offered for effective use of CFD for this application, and issues that require further investigation are identified.
Citation: Bhattacharjee, S., Haworth, D., and Moores, R., "CFD Modeling of Processes Upstream of the Catalyst for Urea SCR NOx Reduction Systems in Heavy-Duty Diesel Applications," SAE Technical Paper 2011-01-1322, 2011, https://doi.org/10.4271/2011-01-1322. Download Citation
Author(s):
Subhasish Bhattacharjee, Daniel C. Haworth, Roxanna Moores
Affiliated:
Penn State University, Volvo Powertrain Corporation
Pages: 24
Event:
SAE 2011 World Congress & Exhibition
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
Diesel Exhaust Emission Control, 2011-SP-2318
Related Topics:
Scale models
Diesel / compression ignition engines
Computational fluid dynamics
Simulation and modeling
Optimization
Catalysts
Selective catalytic reduction
Nitrogen oxides
Pressure
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