Fuel consumption potential of gasoline engines in an electrified powertrain: homogeneous and heterogeneous lean combusti

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ORIGINAL PAPER

Fuel consumption potential of gasoline engines in an electrified powertrain: homogeneous and heterogeneous lean combustion in comparison Alexander Rurik1 · Frank Otto1 · Thomas Koch2 Received: 13 March 2020 / Accepted: 2 May 2020 © Springer Nature Switzerland AG 2020

Abstract This paper evaluates the fuel consumption of homogeneous and heterogeneous lean combustion in the WLTC test cycle. A lean combustion engine is combined with an electrified powertrain and the combustion processes are compared with each other. There is also a distinction with regard to the degree of electrification. First, investigations are carried out with an “engine in the loop” test bench. It turns out that, as expected, the best fuel consumption results can be achieved with heterogeneous lean combustion in combination with homogeneous lean combustion. In addition, it is shown that, in combination with P1 hybridization, low-load heterogeneous lean combustion becomes less important, but continues to contribute to an improvement in fuel consumption. Additionally, P1 hybridization increases the percentage of homogeneous lean combustion by 13%. Thus, the cycle fuel consumption is improved through electrification disproportionately for homogeneous lean combustion by 7.5%, for stoichiometric combustion by 6%. Furthermore, electrification contributes to reducing nitrogen oxide emissions by about 50% in the test cycle to 9 mg/km. The reduction can be achieved by shifting the load points from high loads with higher NOx raw emissions to lower loads with lower NOx raw emissions and by omitting heterogeneous lean combustion. In the second step, the combustion processes for two different engine displacements are compared in calculations. This allows further investigations. It turns out that, with increasing degree of electrification and decreasing engine displacement, heterogeneous lean combustion can no longer contribute to an improvement in fuel consumption and rather an expansion of homogeneous lean combustion at high loads becomes necessary. In general, thanks to the electrification of the powertrain in combination with lean combustion, the cycle fuel consumption can be greatly reduced by up to 33% to 3.76 l/100 km. Electrification does not compete with the advantages of lean combustion, but complements them. The presented results show the potential for improvement in fuel consumption for future developments in gasoline engines in hybridized powertrains. Keywords Gasoline engine · Lean combustion · Cycle fuel consumption · Electrified powertrain List of symbols λ Air–fuel equivalence ratio of combustion N Engine speed σ Standard deviation * Alexander Rurik [email protected] Frank Otto [email protected] Thomas Koch [email protected] 1

Daimler AG, Mercedesstraße 137, 70327 Stuttgart, Germany

Institut für Kolbenmaschinen (IFKM), Karlsruher Institut für Technologie (KIT), Rintheimer Querallee 2, 76131 Karlsruhe, Germany

2

Abbreviations Batt. Battery BMEP Break mean effective pressure CO2 Carbon dioxi

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Fuel consumption potential of gasoline engines in an electrified powertrain: homogeneous and heterogeneous lean combusti

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