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Obsolescence and Optimized Resilience Engineering – i-OREO
Obsolescence is the process by which systems, components or techniques become obsolete, overtaken by more advanced versions. Affecting fields as diverse as electronics, mechanics and chemistry, it poses a major challenge in terms of operational unavailability, requiring proactive management to mitig
Advanced Nanoscale Thermal Imaging and CHaracterization Instruments – ANTICHI
For fundamental thermal science and numerous nanomaterials no mature solution to the issue of thermal measurement at the nanoscale currently exists. In ANTICHI our goal is to provide a versatile instrument that allows analysing in highly controlled experimental conditions thermal mesoscale processes
Additive-manufactured MIEC ceramic membranes for solar-driven green fuels generation – MEMBRASOL
The production of renewable and dispatchable synthetic fuels using green processes constitutes a major challenge of the next decade for the decarbonation of the transport and energy sectors. This project aims to develop a novel groundbreaking approach that bypasses the use of electricity while being
Automorphing composites structures by 4D printing – CompoMorph
Coriolis Composite's activities concern the development of automated manufacturing tools for composite structures by depositing composite tapes. The “custom” placement of ribbons/reinforcements allows you to benefit from the advantages of composite materials, namely the optimized performance of lami
Swarm intelligence for navigating disordered flows using chemical signals – SWARMER
When a weakly diffusive chemical substance is transported through a turbulent or a porous medium, the resulting concentration field is characterised by a structure made of filaments stretched and folded by the flow. Many organisms have to navigate this complex landscape to find their way to the emit
Universal inhibitors for lightweight alloys protection – UnILAP
In the transport field, structural lightening has become a major challenge in order to reduce greenhouse gas emissions and fight global warming and its ecological, economic and societal consequences. Light alloys (aluminum alloys) are commonly used as structural materials. Their corrosion resistanc
Nonlinear reduced models for guaranteed and efficient calculations in quantum chemistry – NUMERIQ
Numerical simulations performed for modelling molecular and materials systems are costly and represent a large part of the calculations run on supercomputers (around 35%). The aim of this project is to develop fast and reliable methods in this field, through the design and development of nonlinear
Systematic Machine Learning Approach for Revolutionary Traffic Optimization in Urban Transportation Engineering – SMART-ROUTE
Rapid growth in the demand for urban transportation networks has underlined the urgent need for sophisticated management of multimodal transportation networks due to the significant costs associated with traffic congestion and CO2 emissions. Addressing these challenges requires a dual focus: allevia
Optimization under uncertainties of fueling stations for electric and hydrogen vehicles – OSIRMEH
Decarbonising the transport sector remains the major challenge in the coming years at a global level. A massive development of mobility solutions based on hydrogen and electricity carriers is expected. For the land-based mobility, this will require the development of multi-energy carriers fueling st
Air Loop and Thermal management Optimization for fuel cell Systems – ALTOS
Hydrogen is expected to play a major role in the energy transition and the decarbonation of the transportation sector. For automotive applications using fuel cell electrical vehicles FCEV, the propulsion system has to be able to handle a wide range of operating points in steady and transient conditi
