A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner
The active SCR aftertreatment system is one of the most crucial technology for the NOx reduction of diesel engines. One of the essential parameters of this technology is the urea spray performance on the catalyst. This study presents an experimental and numerical investigation of urea spray behavior...
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Format: | Article |
Language: | English |
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Elsevier
2022-09-01
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Series: | Alexandria Engineering Journal |
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Online Access: | http://www.sciencedirect.com/science/article/pii/S1110016821008115 |
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author | Ismail Hakki Savci M. Zafer Gul |
author_facet | Ismail Hakki Savci M. Zafer Gul |
author_sort | Ismail Hakki Savci |
collection | DOAJ |
description | The active SCR aftertreatment system is one of the most crucial technology for the NOx reduction of diesel engines. One of the essential parameters of this technology is the urea spray performance on the catalyst. This study presents an experimental and numerical investigation of urea spray behavior used in the heavy-duty diesel engine's selective catalytic reduction (SCR) aftertreatment systems.The custom test rig is designed and built to simulate exhaust aftertreatment systems of heavy-duty diesel vehicles. Urea injector parameters were observed in this test rig with optic windows for spray and flow visualization. This test rig is available to simulate diesel engines in the sense of exhaust mass flow rate, temperature and spray control unit. The discussion is made about the effects of droplet size of spray and velocity distribution upon flow characterization.A detailed assessment of the numerical model was presented, and validation was carried out for different interest measurement locations. The predicted droplet size distributions, breakup performance, and velocities are numerically and correlated with the experimental data. The validated model is subsequently used to study the urea-flow mixing dynamics to develop a urea mixer numerically. Test results show that smaller droplets enhance the mixing and thus catalyst efficiency. Mixer design performance can be assessed numerically in the droplet size break up based on the developed criteria called mixer performance criteria. Upstream and downstream of the mixer, droplet size can be extracted from the simulation, and different mixer designs can be compared in terms of the breakup performance. |
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id | doaj.art-6be2a5af443d4d89a0c748713fc2ff5f |
institution | Directory Open Access Journal |
issn | 1110-0168 |
language | English |
last_indexed | 2024-04-12T23:32:46Z |
publishDate | 2022-09-01 |
publisher | Elsevier |
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series | Alexandria Engineering Journal |
spelling | doaj.art-6be2a5af443d4d89a0c748713fc2ff5f2022-12-22T03:12:15ZengElsevierAlexandria Engineering Journal1110-01682022-09-0161966216633A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burnerIsmail Hakki Savci0M. Zafer Gul1Ford Otomotiv Sanayi A.Ş., İstanbul, Sancaktepe 34885, Turkey; Corresponding author.Department of Mechanical Engineering, Marmara University, İstanbul, Kadıkoy 34669, TurkeyThe active SCR aftertreatment system is one of the most crucial technology for the NOx reduction of diesel engines. One of the essential parameters of this technology is the urea spray performance on the catalyst. This study presents an experimental and numerical investigation of urea spray behavior used in the heavy-duty diesel engine's selective catalytic reduction (SCR) aftertreatment systems.The custom test rig is designed and built to simulate exhaust aftertreatment systems of heavy-duty diesel vehicles. Urea injector parameters were observed in this test rig with optic windows for spray and flow visualization. This test rig is available to simulate diesel engines in the sense of exhaust mass flow rate, temperature and spray control unit. The discussion is made about the effects of droplet size of spray and velocity distribution upon flow characterization.A detailed assessment of the numerical model was presented, and validation was carried out for different interest measurement locations. The predicted droplet size distributions, breakup performance, and velocities are numerically and correlated with the experimental data. The validated model is subsequently used to study the urea-flow mixing dynamics to develop a urea mixer numerically. Test results show that smaller droplets enhance the mixing and thus catalyst efficiency. Mixer design performance can be assessed numerically in the droplet size break up based on the developed criteria called mixer performance criteria. Upstream and downstream of the mixer, droplet size can be extracted from the simulation, and different mixer designs can be compared in terms of the breakup performance.http://www.sciencedirect.com/science/article/pii/S1110016821008115NOx ReductionSelective catalyst reductionSprayDroplet |
spellingShingle | Ismail Hakki Savci M. Zafer Gul A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner Alexandria Engineering Journal NOx Reduction Selective catalyst reduction Spray Droplet |
title | A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner |
title_full | A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner |
title_fullStr | A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner |
title_full_unstemmed | A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner |
title_short | A methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner |
title_sort | methodology to assess mixer performance for selective catalyst reduction application in hot air gas burner |
topic | NOx Reduction Selective catalyst reduction Spray Droplet |
url | http://www.sciencedirect.com/science/article/pii/S1110016821008115 |
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