Why Green and Safe Mobility?

  • 19 international research projects (last 5 years, Horizon 2020, Horizon Europe)
  • 17 national research projects (last 5 years, Slovenian Research Agency)
  • 29 industrial research projects (last 5 years)
  • 68 experts, including 25 PhD students, 17 post-docs, and 26 senior researchers
  • 5+ million EUR of dedicated equipment

Our aims

Research activities focus on shift for reaching sustainable, smart and safe mobility. The goal is to mobilize industry for a clean and circular economy, for reaching a zero-pollution and toxic-free environment. Those very ambitious objectives inherently call for innovative production and products. With this contribution to lower energy consumption, higher energy and power density, high level of durability and safety, will be assured, while being produced with low LCA footprint technologies and using more abundant materials.

Our expertise

Research Platform Green and Safe Mobility fosters innovative research to support paradigm shift in the field of powertrain electrification:

  • Advanced high-fidelity models to efficiently explore the design of new products, and with-it identification of optimal first-time right approaches.
  • Advanced Digital Twins and SoX observers making possible unprecedentedly precise monitoring and control of systems and components.

Comfort and safety: It is achieved through a synergy of different systems and structural solutions in a modern vehicle. Thus, the platform activities are oriented to:

  • introduction of sustainable oriented lightweight solutions for assuring safety and comfort, while keeping the greenhouse emissions at low level throughout the whole life cycle.
  • improvement of battery operational safety, while algorithms that are being developed in our laboratories, are capable to reduce the probability of potentially hazardous battery-related events with a neglectable influence to a deterioration of the battery service life.

Our expertise is to assist you with advanced design, modelling and manufacturing of novel materials to target functional components. We are focused on multiscale modelling and testing of components and systems to evaluate environmental profiles. Implementing experimental and modelling methodologies into life cycle inventories enables us to reduce CO2 and other emissions to achieve zero pollution.

Interested?

We can help you to solve your challenges. Contas us at nas rr@fs.uni-lj.si.

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