Real World Advanced Technologies for Diesel Engines (REWARD)
Research Project, 2015
– 2018
The overall objective of the REWARD project is to develop the knowhow, intellectual property rights and technical capabilities to adequately and cost-effectively produce cleaner, highly efficient Diesel powertrains and aftertreatment technologies for future cleaner class A, B, C, D and E passenger cars and light commercial vehicles (LCVs) up to 3,500 kg that “go beyond Euro 6 limits under Real Driving conditions” (EU6 RDE). All technologies: friction and wear reduction measures, exhaust gas treatment concepts, fuel-efficient 2-stroke and 4-stroke Diesel engine concepts will be advanced to TRL 6 or TRL 7 and integrated in three demonstration vehicles. A full calibration and assessment of the vehicles and underlying technologies will take place to proof: real driving emissions below upcoming Euro 6 limits, 25% friction reduction in the entire engine, a significant higher lifetime durability and a more than 5% improved overall fuel efficiency. The impact of the cost effectiveness and high yield producibility of the applications will also be demonstrated. Specific scientific and technical objectives, main innovations and targeted key results are: 1. To develop and demonstrate advanced exhaust gas treatment concepts and low emission technologies up to TRL 7 2. To develop and demonstrate advanced friction and wear reduction measures up to TRL 6/7 3. To develop and demonstrate advanced > 5% more fuel-efficient 0.7 l 2-stroke Diesel engines (TRL6) suited for class A/B passenger cars 4. To develop and demonstrate advanced > 5% more fuel-efficient 4-stroke Diesel engines (TRL7) suited for class B, C D and E passenger cars and LCVs REWARD’s aim is to develop all key technologies up to TRL6 i.e. system/subsystem model or prototype demonstration in a relevant environment and to TRL7, i.e. system prototype demonstration in an operational environment. REWARD will also prepare a plan for a credible path to deliver the innovations to the market.
Participants
Louise Olsson (contact)
Chemical Reaction Engineering
Collaborations
AVL
Graz, Austria
Centro Ricerche Fiat (CRF)
Orbassano, Italy
Consiglo Nazionale Delle Richerche
Rom, Italy
Czech Technical University in Prague
Praha, Czech Republic
Delphi Automotive Systems Luxembourg
Bascharage, Luxembourg
IFP Energies Nouvelles
Rueil Malmaison, France
Johnson Matthey
London, United Kingdom
Kompetenzzentrum, das Virtuelle Fahrzeug, Forschungsgesellschaft
Graz, Austria
Polytechnic University of Valencia (UPV)
Valencia, Spain
Renault
Boulogne Billancourt, France
Ricardo UK
Shoreham-By-Sea, United Kingdom
Schaeffler Technologies
Herzogenaurach, Germany
Uniresearch
Delft, Netherlands
Volvo Cars
Göteborg, Sweden
Funding
European Commission (EC)
Project ID: EC/H2020/636380
Funding Chalmers participation during 2015–2018