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| Funder | European Commission |
|---|---|
| Recipient Organization | Otto-Von-Guericke-Universitaet Magdeburg |
| Country | Germany |
| Start Date | Oct 01, 2023 |
| End Date | Sep 30, 2027 |
| Duration | 1,460 days |
| Number of Grantees | 17 |
| Roles | Associated Partner; Participant; Coordinator |
| Data Source | European Commission |
| Grant ID | 101120014 |
Multi-phase, trans/supercritical and non-Newtonian fluid flows with heat and mass transfer are critical in enhancing the performance of energy production, propulsion and biomedical systems.
Examples include: hydraulic turbomachines, ship propellers, CO2-neutral e-fuels and e-motor cooling systems, particle-laden flows in inhalers and focused ultrasounds for drug delivery.
What all these cases have in common is the high level of complexity which makes Direct Numerical Simulations impossible.
State-of-the-art LES simulations rely on simplified assumptions but do not have yet the desired accuracy, while often require enormously expensive CPU resources.
The aim of SCALE is to develop simulation methods and reduced-order models using physics-informed and data-driven Machine Learning and optimisation methods for such flow processes.
These will be trained against ‘ground-truth’ databases that will be generated for the first time using both DNS and experimentally validated, industry-relevant LES and multi-fidelity RANS simulations.
The new simulation tools will be applied for the first time to industrial problems and their ability to accelerate design times and improve accuracy will be jointly pursued and evaluated with the non-academic partners of SCALE. These are international corporations and market leaders in the aforementioned areas.
Holistic training by experts from science and industry includes broad reviews on relevant scientific topics, modern high performance computing architectures suitable for performing such simulations, big data analytics as well as extensive support for mastering scientific tasks and transferring the knowledge acquired to industrial practice.
SCALE will also deliver soft skills training from a well-connected cohort of leaders with the ability to communicate across disciplines and within the general public.
This coupling of research with industry makes SCALE a truly outstanding network for doctoral candidates to start their career.
The University of Hertfordshire Higher Education Corporation; Kungliga Tekniska Hoegskolan; Otto-Von-Guericke-Universitaet Magdeburg; Ethnicon Metsovion Polytechnion; Technische Universitaet Muenchen; Astrazeneca Ab; Wartsila Netherlands Bv; City University of London; Precision Acoustics Limited; Mclaren Racing Limited; Avl List Gmbh; Stichting Maritiem Research Instituut Nederland; Asouti V & Sia Oe; Lubrizol Limited; Communaute Europenne de Recherche En Matiere D'Ecoulement, de Turbulence Et de Combustion; Andritz Hydro Gmbh; Technische Universiteit Delft
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