Experimental study of SCR in a light-duty diesel exhaust to provide data for validation of a CFD model using the porous medium approach
Removal of NOx from a light-duty diesel automotive exhaust system can be achieved by SCR reactions using aqueous urea spray as the reductant. Measurements of emissions from such a system are necessary to provide data for CFD model validation. A test exhaust system was designed that featured an...
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| Format: | Article |
| Language: | English |
| Published: |
SAE International
2010
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| Subjects: | |
| Online Access: | http://eprints.utem.edu.my/id/eprint/5014/1/2010-01-1177_fendy.pdf http://eprints.utem.edu.my/id/eprint/5014/ http://papers.sae.org/2010-01-1177/ |
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| Institution: | Universiti Teknikal Malaysia Melaka |
| Language: | English |
| Summary: | Removal of NOx from a light-duty diesel automotive
exhaust system can be achieved by SCR reactions using
aqueous urea spray as the reductant. Measurements of
emissions from such a system are necessary to provide
data for CFD model validation. A test exhaust system
was designed that featured an expansion can, nozzle
and diffuser arrangement to give a controlled flow profile
to define an inlet boundary for a CFD model and to
approximate to one dimensional flow. Experiments were
carried out on the test exhaust using injection of either
ammonia gas in nitrogen or aqueous urea spray.
Measurements were made of NO, NO2 and NH3 at inlet
to and exit from the SCR using a CLD analyser. The NO
and NO2 profiles within the bricks were found by
measuring at the exit from different length bricks. The
spray and gas measurements were compared, and
insights into the behaviour of the droplets upstream and
within the bricks were obtained. Approximately half to
three quarters of the droplets from the spray remained
as droplets at entry to the first brick. Approximately 200
ppm of ammonia was released from the droplets to react
in the first SCR brick. Between 10 and 100 ppm of
potential ammonia passed through the first brick as
droplets under conditions ranging from NOx-matched
spray input to excess spray. The CFD model for the gas
cases gave reasonable predictions for long bricks. For
short bricks, the space velocity was high and there was
breakthrough of all species. Nevertheless, the reaction
kinetics used, based on a scheme published in the open
literature, were shown to have some ability to describe
the species profiles within the bricks. |
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