Comparison of static and dynamic engine models on the transient performance of a passenger vehicle powertrain Boretti, Alberto, Jin, Seongho, Brear, Michael, Watson, Harry, Voice, Glen and Will, Frank 2008, Comparison of static and dynamic engine models on the transient performance of a passenger vehicle powertrain, in FISITA 2008 : Proceedings of the 2008 World Automotive Congress, Springer Automotive Media, Munich, Germany. Attached Files Name Description MIMEType Size Downloads Title Comparison of static and dynamic engine models on the transient performance of a passenger vehicle powertrain Author(s) Boretti, Alberto Jin, Seongho Brear, Michael Watson, Harry Voice, Glen Will, Frank Conference name World Automotive Congress (2008 : Munich, Germany) Conference location Munich, Germany Conference dates 14-19 Sep. 2008 Title of proceedings FISITA 2008 : Proceedings of the 2008 World Automotive Congress Publication date 2008 Publisher Springer Automotive Media Place of publication Munich, Germany Summary This paper presents experimental and computational results obtained on the Ford Barra 190 4.0 litres I6 gasoline engine and on the Ford Falcon car equipped with this engine. Measurements of steady engine performance, fuel consumption and exhaust emissions were first collected using an automated test facility for a wide range of cam and spark timings vs. throttle position and engine speed. Simulations were performed for a significant number of measured operating points at full and part load by using a coupled Gamma Technologies GT-POWER/GT-COOL engine model for gas exchange, combustion and heat transfer. The fluid model was made up of intake and exhaust systems, oil circuit, coolant circuit and radiator cooling air circuit. The thermal model was made up of finite element components for cylinder head, cylinder, piston, valves and ports and wall thermal masses for pipes. The model was validated versus measured steady state air and fuel flow rates, cylinder pressure parameters, indicated and brake mean effective pressures, and temperature of metal, oil and coolant in selected locations. Computational results agree well with experiments, demonstrating the ability of the approach to produce fairly accurate steady state maps of BMEP and BSFC, as well as to optimize engine operation changing geometry, throttle position, cam and spark timing. Measurements of the transient performance and fuel consumption of the full vehicle were then collected over the NEDC cycle. Simulations were performed by using a coupled Gamma Technologies GT-POWER/GT-COOL/GT-DRIVE model for instantaneous engine gas exchange, combustion and heat transfer and vehicle motion. The full vehicle model is made up of transmission, driveshaft, axles, and car components and the previous engine model. The model was validated with measured fuel flow rates through the engine, engine throttle position, and engine speed and oil and coolant temperatures in selected locations. Instantaneous engine states following a time dependent demand for torque and speed differ from those obtained by interpolating steady state maps of BSFC vs. BMEP and speed. Computational results agree well with experiments, demonstrating the utility of the approach in providing a more accurate prediction of the fuel consumption over test cycles. Notes Poster presentation Language eng Field of Research 090299 Automotive Engineering not elsewhere classified HERDC Research category EN.1 Other conference paper Persistent URL http://hdl.handle.net/10536/DRO/DU:30023790 Document type: Conference Paper Collections: Faculty of Science, Engineering and Built Environment School of Engineering Related Links Link Description Connect to published version Go to link with your DU access privileges     Unless expressly stated otherwise, the copyright for items in DRO is owned by the author, with all rights reserved. Versions Version Filter Type Mon, 22 Feb 2010, 10:04:11 EST Wed, 17 Mar 2010, 12:04:53 EST Mon, 16 Aug 2010, 10:30:26 EST Wed, 18 Aug 2010, 16:29:42 EST Fri, 17 Oct 2014, 10:06:20 EST Filtered Full Citation counts:   Cited 0 times in TR Web of Science Cited 0 times in Scopus Search Google Scholar Access Statistics: 623 Abstract Views, 0 File Downloads  -  Detailed Statistics Created: Mon, 22 Feb 2010, 10:04:11 EST