Descripción del proyecto
Nuevas perspectivas sobre los flujos altamente turbulentos
La turbulencia es un fenómeno omnipresente en la naturaleza y la tecnología. Sin embargo, la elaboración de teorías sobre la turbulencia, en las que se basan en última instancia todas las aplicaciones de modelización, sigue siendo un reto científico pendiente. Incluso las simulaciones masivas realizadas en los mayores superordenadores tienen dificultades para captar los flujos altamente turbulentos. El equipo del proyecto financiado con fondos europeos UniTED pretende crear nuevos planteamientos de este problema inveterado combinando la teoría basada en datos y los cálculos a gran escala. UniTED mejorará nuestros conocimientos fundamentales de los flujos altamente turbulentos y sentará las bases de nuevos métodos de modelización en diversos campos, como la ingeniería computacional, las ciencias de la Tierra, las energías renovables y la física del plasma.
Objetivo
Turbulence governs essentially all large-scale flows on our planet, including our atmosphere and oceans. With a vast number of engineering applications in transportation technology, renewable energies, and more, turbulence has a direct impact on our lives. However, developing predictive theories of turbulence, which ultimately all modeling applications rely on, remains one of the outstanding scientific challenges. Moreover, while massive simulations on the largest supercomputers are nowadays an established tool, reaching realistically high Reynolds numbers remains prohibitive. Already today, analyzing the sheer amount of peta-scale simulation data requires new paradigms for making meaningful progress. Fundamentally new approaches are needed to achieve a breakthrough. UniTED will deliver such an approach by a unique, synergistic combination of data-driven theory and large-scale computations. How? Recently, I showed that the complex statistics of turbulence can be disentangled into much simpler sub-ensembles. This significant reduction of complexity points toward exciting new theoretical pathways and novel computational methodologies, which I will explore in this project. In UniTED, we will (A) dissect the multi-scale structure of turbulence through massively parallel computations. This will (B) provide the foundation for a statistical theory of turbulence which is based on a novel ensemble decomposition approach. Combining (A) and (B), we will (C) develop a novel ensemble-based simulation approach, enabling unprecedented insights into turbulence at high Reynolds numbers. We will then use this approach to (D) provide big data for modeling small-scale turbulence using physics-informed machine learning. UniTED will boost our fundamental understanding of turbulence at very high Reynolds numbers and provide new modeling approaches in a breadth of fields such as computational engineering, the Earth sciences, renewable energy, and plasma physics.
Ámbito científico
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
- natural sciencescomputer and information sciencesdata sciencebig data
- natural sciencesphysical sciencesplasma physics
- natural sciencesearth and related environmental sciences
- natural sciencescomputer and information sciencesartificial intelligencecomputational intelligence
Programa(s)
Régimen de financiación
ERC-COG - Consolidator GrantInstitución de acogida
95447 Bayreuth
Alemania