Design and evaluation of the elevate two-stroke automotive engine

Dave Blundell, Jamie Turner, Pierre Duret, Jacques Lavy, Johnny Oscarsson, Goran Emanuelsson, Jorgen Bengtsson, Thomas Hammarström, Matteo Perotti, Robert Kenny, Geoffrey Cunningham

Research output: Chapter in Book/Report/Conference proceedingConference contribution

16 Scopus citations


ELEVATE (European Low Emission V4 Automotive Two-stroke Engine) was a research project part funded by the European Commission to design and develop a compact and efficient gasoline two-stroke automotive engine. Five partners were involved in the project, IFP (Institut Français Du Pétrole) who were the project leaders, Lotus, Opcon (Autorotor and SEM), Politecnico di Milano and Queen's University Belfast. The general project targets were to achieve Euro 3 emissions compliance without DeNOx catalisation, and a power output of 120 kW at 5000 rev/min with maximum torque of 250 Nm at 2000 rev/min. Specific targets were a 15% reduction in fuel consumption compared to its four-stroke counterpart and a size and weight advantage over the four-stroke diesel with significant reduction in particulate and NOx emissions. This paper describes the design philosophy of the engine as well as the application of the various partner technologies used. Incorporated in the design was an air assisted direct fuel injection system, IAPAC, (Injection Assistée Par Air Comprimé) and a charge trapping valve system in the exhaust port. A dual delivery screw compressor for external scavenging supplied a high volume of low-pressure charge air and a low volume of higher-pressure air for the fuel injection system. A high-energy flexible ignition system was used and, at part load, a Controlled Auto Ignition (CAI) process was developed. Lessons learnt from the project, both advantages and associated problems, will be discussed, as well as results from testing. The actual engine tested was constrained by the financial and time limitations of a research funded project. A production version of the engine was partially designed using 3D CATIA. This will be shown and discussed also. Copyright © 2003 SAE International.
Original languageEnglish (US)
Title of host publicationSAE Technical Papers
PublisherSAE International
StatePublished - Jan 1 2003
Externally publishedYes

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Generated from Scopus record by KAUST IRTS on 2023-09-21


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