Groupe PSA and Ecole Centrale de Nantes today announced the launch of an R&D partnership to optimise powertrain design processes for the group’s future vehicles. The aim of the partnership is to accelerate the use of digital simulation techniques in the design, development and testing of powertrains and increase model predictability. In the future, it could be possible to develop a new engine without laboratory tests or prototypes, using only virtual testing.
Digital simulation offers numerous benefits. The first one is the time saved in the development stage due to the speed at which digital models can be configured versus the process of building and testing multiple iterations of prototypes. Digital simulation as a design method is also less expensive than prototyping, which requires substantial tooling costs. The goal is to reduce the number of prototypes required by more than 70% versus the conventional design approach. Digitally simulated designs are also more robust and of higher quality as they can be tested against a greater number of customer scenarios.
The two parties will co-finance the project for a total amount of €4 million over five years. Ecole Centrale de Nantes combines simulation and testing capabilities within a single team of teacher-researchers specialising in modelling and state-of-the-art experimental resources, including engine and vehicle test benches equipped with the most powerful supercomputer available on a university campus in France.
The project will cover all types of internal combustion engines for the development of hybrid vehicles and may also be extended to electric vehicles, where opportunities arise. A team of around ten people will focus on three areas: digital modelling of petrol engines, “smart” automatic calibration processes to shorten the testing phase and electric powertrain design.
Groupe PSA is already pioneering the digital design approach. Plans for limiting the quantity of prototypes produced for design purposes were put in place back in 2015 for the development of the 1.5l BlueHDi engine, shrinking the number required by around 40%. Through this new partnership, prototyping and testing requirements can be further reduced.
At Centrale Nantes, the partnership will be coordinated by Alain Maiboom, lecturer and research supervisor at the Research Laboratory in Hydrodynamics, Energy and Atmospheric Environment (LHEEA), a CNRS mixed research unit. His research activities focus primarily on combustion and the reduction of pollutant emissions from internal combustion engines at source, as well as heat transfers in the engine and throughout the powertrain (experimental characterisation using test benches and phenomenological modelling).
Commenting on the partnership, Mr Maiboom said: “Our objective is to enhance the ability of the models to simulate the different physical phenomena at play and the various situations encountered over the lifetime of a powertrain, as well as to develop calibration methodologies. In a way, we’re developing a digital test bench capable of replacing a physical bench, at least in part.”
Alain Raposo, Senior Vice President, Powertrain and Chassis Engineering at Groupe PSA, said: “Through our partnership with Centrale Nantes, we aim to boost the development of digital simulation processes with a view to permanently reducing CO2 emissions. The key innovation lies in decreasing industrial design turnaround time. For a manufacturing group and a leading school of engineering to be working together on this type of R&D project is a real boon for the growth of French industry around the world.”
Arnaud Poitou, Director of Ecole Centrale de Nantes, said: “At Centrale Nantes, we’re very proud to be partnering with a major name in French manufacturing like Groupe PSA. This partnership is a testament to the unique positioning of Centrale Nantes, which combines outstanding digital expertise with large-scale experimental platforms, including vehicle and engine test benches and a supercomputer.”*Greenstreetsoftware.info is not responsible for the content of this news release.