Descripción del proyecto
Un marco computacional unificado abarca la modelización de flujos multifásicos industriales y académicos
Fomentar la colaboración y la cooperación entre el mundo académico y la industria acelera la adopción de innovaciones en aplicaciones prácticas con una repercusión social tangible. Los flujos turbulentos multifásicos constituyen el núcleo de varios procesos industriales. A pesar de que existen buenos modelos de flujo académicos, suelen limitarse a flujos de interés académico sin validación experimental rigurosa. Con el apoyo de las Acciones Marie Skłodowska-Curie, el equipo del proyecto COMETE creará una red de formación centrada en desarrollar un marco computacional unificado de los métodos complementarios actuales y emergentes relativos a la modelización de flujos para respaldar la compresión de los flujos multifásicos de relevancia industrial.
Objetivo
In this project, we aim at building a computational framework and a network of competence to extend the applicability of state-of-the-art formulations to industrially-relevant multiphase turbulent flows. We focus on applications characterized by the transport of particles/droplets in two-phase flows with gas-liquid or liquid-liquid deformable interfaces, which are ubiquitous in process, chemical, and power engineering. The targeted applications are at the crossroads between academic research and practical concerns (e.g. particle deposition in boiling flows, droplet coalescence/breakup in emulsions, freezing/defreezing in heat pipes or changes in two-phase flow patterns) and their modeling in an industrial context represents a major challenge. This is due to the complexity arising from the co-existence of different phases, but also to a lack of cross-fertilization between academia and industry: Several methods and ideas exist but their application is often limited to flows of academic interest, with scarce transfer of skills, poor experimental validation and, most importantly, no unified framework into which existing methods could be cast. This represents a serious obstacle to industrial developments since engineers and practitioners can be unaware of which method to use and in need of support. To build the new framework, we consider emerging complementary methods, including Smoothed Particle Hydrodynamics and Phase Field.
COMETE leverages on the complementary expertise of the industrial and academic partners to ensure successful combination of technology-driven objectives and original research developments. To this aim, we will build an international network of excellence by putting forward synchronized training-through-research and training-on-the-job activities, and we will form PhD students fully capable of mastering the next-generation scientific methodologies for complex industrial applications of multiphase flow technology.
Ámbito científico
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Régimen de financiación
MSCA-ITN - Marie Skłodowska-Curie Innovative Training Networks (ITN)Coordinador
33100 Udine
Italia