Investigations on the Influence of Optimized Charge Air Cooling for a Diesel Passenger Car
Autor: | Doppler, Christian, Hirschl, Gernot, Zsiga, Gerhard |
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Jazyk: | angličtina |
Rok vydání: | 2015 |
Předmět: | |
DOI: | 10.5281/zenodo.1338064 |
Popis: | Starting in 2020, an EU-wide CO2-limitation of 95 g/km is scheduled for the average of an OEMs passenger car fleet. Taking that into consideration additional improvement measures of the Diesel cycle are necessary in order to reduce fuel consumption and emissions while boosting, or at the least, keeping performance values at the same time. The present article deals with the possibilities of an optimized air/water charge air cooler, also called iCAC (indirect Charge Air Cooler) for a Diesel passenger car amongst extreme-boundary conditions. In this context, the precise objective was to show the impact of improved intercooling with reference to the engine working process (fuel consumption and NOx-emissions). Several extremeboundaries - e.g. varying ambient temperatures or mountainous routes - that will become very important in the near future regarding RDE (Real Driving emissions) were subject of the investigation. With the introduction of RDE in 2017 (EU6c measure), the controversial NEDC (New European Driving Cycle) will belong to the past and the OEMs will have to avoid harmful emissions in any conceivable real life situation. This is certainly going to lead to optimization-measurements at the powertrain, which again is going to make the implementation of iCACs, presently solely used for the premium class, more and more attractive for compact class cars. The investigations showed a benefit in FC between 1 and 3% for the iCAC in real world conditions. {"references":["REO Inductive Components AG, \"Wasserkühlung für induktive und\nohmsche Komponenten\", www.reo.de, downloaded on 24/10/14.","Merker, G.P., Schwarz, C., Stiesch, G., Otto, F., \"Verbrennungsmotoren,\nSimulation der Verbrennung und Schafstoffbildung\", Teubner,\n3.Auflage, Wiesbaden, 2006","S. Burgold, J.-P. Galland, B. Ferlay, L. Odillard, Valeo Powertrain,\n\"Modulare Indirekte Ladeluftkühlung für Verbrennungsmotoren\", MTZ\n11 2012, Volume 73","K.-E. Hummel, B. Huurdeman, J. Diem, Ch. Saumweber, Behr,\nAnsaugmodul mit Indirektem und Integriertem Ladeluftkühler, MTZ 11\n2010, Volume 71","E. Pantow, A. Kleber, R. Lutz, MAHLE GmbH, \"Vorteile indirekter\nKühlsysteme für schwere Nutzfahrzeuge\", ATZ 09 2014, Volume 116","AVL BOOST User Guide Version 2010.1, Edition 03/2011, Graz, 2011","R. Gneiting, Th. Heckenberger, Ch. Sauer, Behr GmbH, \"Virtual\nThermal Management in Cars – Requirements and Implementation\", 6th\nFKFS Conference: Progress in Vehicle Aerdoynamics and Thermal\nManagement, Stuttgart, 2007","R. Gneiting, Th. Heckenberger, Ch. Sauer, Behr GmbH, \"Virtual\nThermal Management in Cars – Requirements and Implementation\", 6th\nFKFS Conference: Progress in Vehicle Aerdoynamics and Thermal\nManagement, Stuttgart, 2007"]} |
Databáze: | OpenAIRE |
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