Extreme engine downsizing

C. Carey; M. McAllister; M. Sandford; S. Richardson; S. Pierson; N. Darnton; S. Bredda; S. Akehurst; C. Brace; J. Turner; R. Pearson; N. Luard; R. M. Martinez-Botas; CD Copeland; M. Lewis; J. Fernandes

Extreme engine downsizing

C. Carey, M. McAllister, M. Sandford, S. Richardson, S. Pierson, N. Darnton, S. Bredda, S. Akehurst, C. Brace, J. Turner, R. Pearson, N. Luard, R. M. Martinez-Botas, CD Copeland, M. Lewis, J. Fernandes

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

Abstract

This paper provides an introduction to the technical challenges and countermeasures required to enable extreme gasoline engine downsizing. Jaguar Land Rover (JLR) is the lead partner in a collaborative project called 'ULTRABOOST' which is supported with funding from the UK Technology Strategy Board (TSB). The project aim is to develop an innovative engine concept capable of a 35% CO2 tailpipe reduction over the NEDC drive cycle relative to a current production V8 engine in a Sports Utility Vehicle, whilst maintaining key vehicle attributes such as performance and transient response. The project consortium is made up of eight technical partners including Jaguar Land Rover, Lotus Engineering, Shell Fuels, GE Precision Engineering, CD-adapco, University of Bath, University of Leeds and Imperial College London. Starting in September 2010 and running for three years the project will utilise the partners expertise and collective skills in engineering, design, combustion modelling, pressure charging and fuels to develop a highly pressure charged downsized engine concept. In this paper the technology required to enable extreme levels of engine downsizing and CO2 reductions are described, together with accompanying simulation data collected from the initial concept engine development.

Translated title of the contribution	Extreme engine downsizing
Original language	English
Title of host publication	Innovations in Fuel Economy and Sustainable Road Transport
Publication status	Published - 8 Nov 2011

Bibliographical note

Name and Venue of Event: Le Meridien Pune, Raja Bahadur Mill Road, Pune, Maharashtra 411001, India
Conference Organiser: Institute of Mechanical Engineers

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@inproceedings{2b410a646dbd4ac98705135cdb66df4a,

title = "Extreme engine downsizing",

abstract = "This paper provides an introduction to the technical challenges and countermeasures required to enable extreme gasoline engine downsizing. Jaguar Land Rover (JLR) is the lead partner in a collaborative project called 'ULTRABOOST' which is supported with funding from the UK Technology Strategy Board (TSB). The project aim is to develop an innovative engine concept capable of a 35% CO2 tailpipe reduction over the NEDC drive cycle relative to a current production V8 engine in a Sports Utility Vehicle, whilst maintaining key vehicle attributes such as performance and transient response. The project consortium is made up of eight technical partners including Jaguar Land Rover, Lotus Engineering, Shell Fuels, GE Precision Engineering, CD-adapco, University of Bath, University of Leeds and Imperial College London. Starting in September 2010 and running for three years the project will utilise the partners expertise and collective skills in engineering, design, combustion modelling, pressure charging and fuels to develop a highly pressure charged downsized engine concept. In this paper the technology required to enable extreme levels of engine downsizing and CO2 reductions are described, together with accompanying simulation data collected from the initial concept engine development.",

author = "C. Carey and M. McAllister and M. Sandford and S. Richardson and S. Pierson and N. Darnton and S. Bredda and S. Akehurst and C. Brace and J. Turner and R. Pearson and N. Luard and Martinez-Botas, {R. M.} and CD Copeland and M. Lewis and J. Fernandes",

note = "Name and Venue of Event: Le Meridien Pune, Raja Bahadur Mill Road, Pune, Maharashtra 411001, India Conference Organiser: Institute of Mechanical Engineers",

year = "2011",

month = nov,

day = "8",

language = "English",

booktitle = "Innovations in Fuel Economy and Sustainable Road Transport",

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TY - GEN

T1 - Extreme engine downsizing

AU - Carey, C.

AU - McAllister, M.

AU - Sandford, M.

AU - Richardson, S.

AU - Pierson, S.

AU - Darnton, N.

AU - Bredda, S.

AU - Akehurst, S.

AU - Brace, C.

AU - Turner, J.

AU - Pearson, R.

AU - Luard, N.

AU - Martinez-Botas, R. M.

AU - Copeland, CD

AU - Lewis, M.

AU - Fernandes, J.

N1 - Name and Venue of Event: Le Meridien Pune, Raja Bahadur Mill Road, Pune, Maharashtra 411001, India Conference Organiser: Institute of Mechanical Engineers

PY - 2011/11/8

Y1 - 2011/11/8

N2 - This paper provides an introduction to the technical challenges and countermeasures required to enable extreme gasoline engine downsizing. Jaguar Land Rover (JLR) is the lead partner in a collaborative project called 'ULTRABOOST' which is supported with funding from the UK Technology Strategy Board (TSB). The project aim is to develop an innovative engine concept capable of a 35% CO2 tailpipe reduction over the NEDC drive cycle relative to a current production V8 engine in a Sports Utility Vehicle, whilst maintaining key vehicle attributes such as performance and transient response. The project consortium is made up of eight technical partners including Jaguar Land Rover, Lotus Engineering, Shell Fuels, GE Precision Engineering, CD-adapco, University of Bath, University of Leeds and Imperial College London. Starting in September 2010 and running for three years the project will utilise the partners expertise and collective skills in engineering, design, combustion modelling, pressure charging and fuels to develop a highly pressure charged downsized engine concept. In this paper the technology required to enable extreme levels of engine downsizing and CO2 reductions are described, together with accompanying simulation data collected from the initial concept engine development.

AB - This paper provides an introduction to the technical challenges and countermeasures required to enable extreme gasoline engine downsizing. Jaguar Land Rover (JLR) is the lead partner in a collaborative project called 'ULTRABOOST' which is supported with funding from the UK Technology Strategy Board (TSB). The project aim is to develop an innovative engine concept capable of a 35% CO2 tailpipe reduction over the NEDC drive cycle relative to a current production V8 engine in a Sports Utility Vehicle, whilst maintaining key vehicle attributes such as performance and transient response. The project consortium is made up of eight technical partners including Jaguar Land Rover, Lotus Engineering, Shell Fuels, GE Precision Engineering, CD-adapco, University of Bath, University of Leeds and Imperial College London. Starting in September 2010 and running for three years the project will utilise the partners expertise and collective skills in engineering, design, combustion modelling, pressure charging and fuels to develop a highly pressure charged downsized engine concept. In this paper the technology required to enable extreme levels of engine downsizing and CO2 reductions are described, together with accompanying simulation data collected from the initial concept engine development.

M3 - Conference Contribution (Conference Proceeding)

BT - Innovations in Fuel Economy and Sustainable Road Transport

ER -

Extreme engine downsizing

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