The transport sector contributes to about 25% of total CO2 emissions in the EU and is the only sector where the trend is still increasing. Taking into account the growing demand on the road transport system and the ambitious targets of the EC’s Transport White Paper, it is paramount to increase the efficiency of freight transport.
The vision of the AEROFLEX project is to support vehicle manufacturers and the logistics industry to achieve the coming challenges for road transport. The overall objective of the AEROFLEX project is to develop and demonstrate new technologies, concepts and architectures for complete vehicles with optimized aerodynamics, powertrains and safety systems as well as flexible and adaptable loading units with advanced interconnectedness contributing to the vision of a “physical internet”.
The optimal matching of novel vehicle concepts and infrastructures is highly important, requiring the definition of smart infrastructure access policies for the next generation of trucks, load carriers and road infrastructure.
The overall objective of AEROFLEX is to achieve an overall 18-33% efficiency improvement in road transport / long haulage by 2025+. This objective is supported by specific technical objectives, innovations and targeted key results:
- Characterise the European freight transport market (map, quantify and predict), drivers, constraints, trends, and the mode and vehicle choice criteria
- Develop new concepts and technologies for trucks with reduced drag, which are safer, comfortable, configurable and cost effective and ensure satisfaction of intermodal customer needs under varying transport tasks and conditions. Demonstrate potential truck aerodynamics and energy management improvements with associated impact assessments of the new vehicle concepts, technologies and features developed in the AEROFLEX project.
- Drafting of coherent recommendations for revising standards and legislative frameworks in order to allow the new aerodynamic and flexible vehicle concepts on the road.
This project has received funding from the European Union’s Horizon 2020 Research and Innovation Programme under Grant Agreement number 769658.