Cam Profile Switching (CPS) and phasing strategy vs Fully Variable Valve Train (FVVT) strategy for transitions between spark ignition and controlled auto ignition modes

N. Milovanovic, D. Blundell, S. Gedge, J. W. G. Turner

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

25 Citations (Scopus)

Abstract

In a future 'hybrid' mode internal combustion engine capable of running in spark ignition (SI) and controlled auto ignition-CAI (also known as Homogeneous Charge Compression Ignition-HCCI) modes, transition between these modes, during changes in engine load and speed, will play a crucial role. The valve train and engine management system (EMS) must provide a fast and smooth transition between these two very different combustion modes keeping all relevant engine and combustion parameters in an acceptable range. In order to obtain such transition between SI and HCCI and SI, a valve event (duration, timing and lift) has to be variable, which consequently leads to high demands on the valve train and therefore a need for its higher degree of flexibility. Two valve train concepts, one with a Cam Profile Switching (CPS) and phaser system and the other camless using Fully variable Valve Train (FVVT) are presented. The use of both concepts for transitions from SI to HCCI to SI are experimentally investigated on a single cylinder research engine fuelled with commercially available gasoline fuel (95 RON). Experimental results obtained together with benefits and obstacles in using each of these strategies are presented and discussed. .

Original languageEnglish
Title of host publicationSAE Technical Papers
DOIs
Publication statusPublished - 1 Dec 2005
Event2005 SAE World Congress - Detroit, MI, UK United Kingdom
Duration: 11 Apr 200514 Apr 2005

Conference

Conference2005 SAE World Congress
CountryUK United Kingdom
CityDetroit, MI
Period11/04/0514/04/05

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Cams
Electric sparks
Ignition
Engines
Computer aided instruction
Engine cylinders
Internal combustion engines
Gasoline

Cite this

Cam Profile Switching (CPS) and phasing strategy vs Fully Variable Valve Train (FVVT) strategy for transitions between spark ignition and controlled auto ignition modes. / Milovanovic, N.; Blundell, D.; Gedge, S.; Turner, J. W. G.

SAE Technical Papers. 2005.

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

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abstract = "In a future 'hybrid' mode internal combustion engine capable of running in spark ignition (SI) and controlled auto ignition-CAI (also known as Homogeneous Charge Compression Ignition-HCCI) modes, transition between these modes, during changes in engine load and speed, will play a crucial role. The valve train and engine management system (EMS) must provide a fast and smooth transition between these two very different combustion modes keeping all relevant engine and combustion parameters in an acceptable range. In order to obtain such transition between SI and HCCI and SI, a valve event (duration, timing and lift) has to be variable, which consequently leads to high demands on the valve train and therefore a need for its higher degree of flexibility. Two valve train concepts, one with a Cam Profile Switching (CPS) and phaser system and the other camless using Fully variable Valve Train (FVVT) are presented. The use of both concepts for transitions from SI to HCCI to SI are experimentally investigated on a single cylinder research engine fuelled with commercially available gasoline fuel (95 RON). Experimental results obtained together with benefits and obstacles in using each of these strategies are presented and discussed. .",
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