Objective
The CONVENIENT project targets a 30% reduction of fuel consumption in vehicles for long-distance freight transport by developing an innovative heavy-truck archetype featuring a suite of innovative energy-saving technologies and solutions.
From the customer viewpoint, fuel efficiency is top priority because of its significant impact in terms of cost (in the EU, fuel represents about 30% of the Total Operating Costs for a 40-ton tractor-semitrailer combination).
Responding to this challenge, the objective of CONVENIENT is to achieve complete vehicle energy management by proposing highly innovative solutions for improved efficiency and enhanced integration of components (currently designed independently) which will be developed, integrated and evaluated directly on validator vehicles, including:
• innovative energy efficient systems, including hybrid transmission, electrified auxiliaries, dual level cooling, parking HVAC
• energy harvesting devices, like photovoltaic solar roof for truck and semitrailer;
• advanced active and passive aerodynamics devices for the truck and for the semitrailer:
• an Holistic Energy Management system at vehicle level;
• a Predictive Driver Support to maximize the energy saving benefits.
• a novel Hybrid Kinetic Energy Recovery System for the semitrailer.
The most relevant and novel aspect of CONVENIENT is represented by the holistic approach to on-board energy management, considering the tractor, semi-trailer, driver and the mission as a whole.
The CONVENIENT Consortium, which comprises three major EU truck manufacturers, ten Tier 1/2 suppliers, and a network of nine research centres and Universities, representing European excellence in the field of long distance transport R&D, is uniquely well-qualified with respect to the project scope and the highly ambitious target of achieving 30% gains in vehicle efficiency.
Fields of science
- social sciencessocial geographytransportfreight transport
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
- engineering and technologymechanical engineeringthermodynamic engineering
- engineering and technologymechanical engineeringvehicle engineeringaerospace engineeringaeronautical engineering
Call for proposal
FP7-SST-2012-RTD-1
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Funding Scheme
CP-IP - Large-scale integrating projectCoordinator
10043 Orbassano
Italy
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Participants (21)
10156 Torino
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405 08 Goteborg
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5643 TW Eindhoven
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30165 Hannover
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8020 Graz
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52062 Aachen
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2595 DA Den Haag
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4300 St. Valentin
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43710 Santa Oliva
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5612 AE Eindhoven
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2628 CN Delft
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97421 Schweinfurt
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28062 CAMERI
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75008 Paris
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20122 MILANO
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67100 L Aquila
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66030 SANTA MARIA IMBARO
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10078 Venaria Reale
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88046 Friedrichshafen
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80686 Munchen
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100 44 Stockholm
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