48V Exhaust Gas Recirculation Pump: Reducing Carbon Dioxide with High-Efficiency Turbochargers without Increasing Engine-Out NOx

Authors Abstract
Content
Regulations limiting GreenHouse Gases (GHG) from Heavy-Duty (HD) commercial vehicles in the United States (US) and European Union will phase in between the 2024 and 2030 model years. These mandates require efficiency improvements at both the engine and vehicle levels, with the most stringent reductions required in the heaviest vehicles used for long-haul applications. At the same time, a 90% reduction in oxides of nitrogen (NOx) will be required as part of new regulations from the California Air Resources Board. Any technologies applied to improve engine efficiency must therefore not come at the expense of increased NOx emissions. Research into advanced engine architectures and components has identified improved turbomachine efficiency as one of the largest potential contributors to engine efficiency improvement. However this comes at the cost of a reduced capability to drive high-pressure Exhaust Gas Recirculation (EGR). This study investigates the combination of a high-efficiency turbocharger and an electric EGR pump to allow improved engine fuel efficiency without the corresponding penalty to engine-out NOx. Results collected on a 13L 2019 model year engine on a dynamometer show the potential for a 3.5% reduction in engine Brake-Specific Fuel Consumption (BSFC) at engine operating conditions representative of highway cruise. Improvements at other engine operating conditions are also possible with careful matching of the turbocharger and EGR pump.
Meta TagsDetails
DOI
https://doi.org/10.4271/02-14-03-0024
Pages
8
Citation
Johnson, G., Bockstanz, B., Bagal, N., Hopkins, J. et al., "48V Exhaust Gas Recirculation Pump: Reducing Carbon Dioxide with High-Efficiency Turbochargers without Increasing Engine-Out NOx," SAE Int. J. Commer. Veh. 14(3):303-309, 2021, https://doi.org/10.4271/02-14-03-0024.
Additional Details
Publisher
Published
Aug 23, 2021
Product Code
02-14-03-0024
Content Type
Journal Article
Language
English