Real-World NOX Emissions of Transit Buses Equipped with Diesel Exhaust Aftertreatment Systems

Real-World NOX Emissions of Transit Buses Equipped with Diesel Exhaust Aftertreatment Systems

In this work, we compare nitrogen oxide (NO X ) emissions from vehicles equipped with 2013 and 2015 model year (MY) diesel engines and exhaust aftertreatment, both certified to the same emissions standards, over a variety of real-world drive cycles. Our study concludes that 2013MY and 2015MY buses a...

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Bibliographic Details
Published in:Emission control science and technology (Online) Vol. 3; no. 2; pp. 153 - 160
Main Authors: Kotz, Andrew J., Kittelson, David B., Northrop, William F., Schmidt, Niklas
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-06-2017
Springer Nature B.V
Subjects:
Buses
Buses (vehicles)
Catalysts
Conversion
Diesel
Diesel engines
Earth and Environmental Science
Earth Sciences
Emission standards
Emissions control
Environmental Science and Engineering
Exhaust systems
Industrial Chemistry/Chemical Engineering
Internal combustion engines
Nitrogen oxides
Photochemicals
Powertrain
Surfaces and Interfaces
Thin Films
Transit
Urea
Vehicle emissions
Aftertreatment
NO
Selective catalytic reduction
Real-world
Urban bus
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Summary:In this work, we compare nitrogen oxide (NO X ) emissions from vehicles equipped with 2013 and 2015 model year (MY) diesel engines and exhaust aftertreatment, both certified to the same emissions standards, over a variety of real-world drive cycles. Our study concludes that 2013MY and 2015MY buses achieved real-world NO X conversion efficiencies of 75 and 95%, respectively. Engine-out NO X levels remained unchanged between the two busses when driven over the same transit bus routes. Therefore, emissions reductions are attributed to greater NO X conversion efficiency by the exhaust aftertreatment system, especially in low catalyst temperature and transient response scenarios. Although it is likely that other transit buses and vocational vehicles will express different characteristics based on their specific operating conditions and powertrain setup; our results show that improvements to aftertreatment systems, in the areas of catalyst activity, aftertreatment controls, and urea dosing strategy can significantly reduce NO X emissions over the investigated real-world drive cycles.
ISSN:2199-3629
2199-3637
DOI:10.1007/s40825-017-0064-4