The commercial vehicle industry continues to move in the direction of improving brake thermal efficiency while meeting more stringent diesel engine emissions requirements. This study focused on fuel efficiency when using an exhaust burner during cold starts. Selective catalyst reduction (SCR) systems are very efficient at eliminating NOx from the exhaust once its temperature has been raised to 250 °C. The exhaust burner is used during a cold start to raise the temperature of the SCR system quickly, and then it is turned off once thermal preparation of the SCR is complete. The exhaust burner converts fuel energy to exhaust heat directly, and thus more efficiently, in comparison to engine measures such as intake/exhaust throttling or elevating the idle speed. Therefore, if engine measures are scaled back because the burner is responsible for SCR system heating, total fuel efficiency should be improved.
This hypothesis was tested at Southwest Research Institute (SwRI), making use of engine testing capabilities that allowed the results to be compared with those generated in the low-NOx technology demonstration funded by the California Air Resources Board (CARB). In addition to an exhaust burner, this testing made use of a conventional aftertreatment system (i.e. not a 2-stage SCR or “dual-dosing” system) that had been hydrothermally aged to end of useful life. FTP and WHTC cycles were run with the burner being responsible for more and more of the warm-up, allowing the tailpipe NOx vs. CO2 trade-off curve to be defined for this technology package.
Meeting Future NOx Emissions Limits with Improved Total Fuel Efficiency
Proceedings
2022-09-13
19 pages
Article/Chapter (Book)
Electronic Resource
German
FUEL & OILS - Emissions limits drive clean fuel search
Online Contents | 2010
FUEL & OILS - Emissions limits drive clean fuel search
Online Contents | 2010
Meeting future. Emissions standards with diesel SUVs
Tema Archive | 2001
|Electric auxiliary propulsion for improved fuel efficiency and reduced emissions
Online Contents | 2015
|Electric auxiliary propulsion for improved fuel efficiency and reduced emissions
SAGE Publications | 2015
|