2019
DOI: 10.3390/en12234433
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Design of a Sequential Axial Turbocharger for Automotive Application

Abstract: In the last few years, the perspective of climate change, energy, competitiveness, and fuel consumption in the transportation sector has become one of the most significant public policy issues of our time. As different methods are being adapted into light-duty vehicles like engine downsizing, on the other hand, the increase in carbon emissions of heavy-duty trucks is becoming a major concern. Although previous researches have studied the methodology for selecting optimized turbocharger performance, still furth… Show more

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Cited by 4 publications
(2 citation statements)
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“…Such an approach favors the simulations under steady-state conditions. A coupled 1-D and 3-D calculations are also performed [14]. The 1-D calculations are performed in order to establish inlet boundary conditions for the 3-D numerical model.…”
Section: Introductionmentioning
confidence: 99%
“…Such an approach favors the simulations under steady-state conditions. A coupled 1-D and 3-D calculations are also performed [14]. The 1-D calculations are performed in order to establish inlet boundary conditions for the 3-D numerical model.…”
Section: Introductionmentioning
confidence: 99%
“…Given that the compression ratio of the stock engine is as high as 12.6, delaying the ignition advance angle and reducing the air-fuel ratio of the intake mixture are often necessary to suppress the greater knocking trend after boosting; considering the changes in pressure and airflow in the cylinder, the combustion duration will vary. Consequently, according to experience and related literature, the air-fuel ratio of the target engine under full load was set to 12.0:1, and the crankshaft phase corresponding to the 50% heat release rate was correspondingly delayed by 5°-10° [27].…”
Section: Engine 1d Cfd Simulation Modelmentioning
confidence: 99%