Descrizione del progetto
Formare i giovani ricercatori per affrontare le sfide costiere
L’innalzamento del livello del mare, amplificato dai cambiamenti climatici, minaccia il tessuto stesso delle comunità costiere in tutto il mondo. Con l’avanzare del riscaldamento globale, insieme ai fattori di rischio naturali e all’intensificarsi dell’attività umana, le tradizionali misure di protezione contro le mareggiate si rivelano insufficienti. La convergenza di queste sfide richiede un cambiamento di mentalità nella modellizzazione delle coste e nelle strategie di mitigazione. Con il sostegno del programma di azioni Marie Skłodowska-Curie, il progetto RESCUER mira a rivoluzionare la sicurezza costiera formando giovani ricercatori in tecniche all’avanguardia, sfruttando modelli multifisici, progressi numerici e tecnologie innovative come la programmazione delle unità di elaborazione grafica. L’obiettivo generale del progetto è quello di salvaguardare gli ambienti costieri, urbani, estuariali e fluviali, offrendo un faro di resilienza di fronte alle crescenti minacce ambientali.
Obiettivo
The Doctoral Network (DN) “RESCUER“ (Resilient Solutions for Coastal, Urban, Estuarine and Riverine Environments) will focus on the training of young researchers (Fellows) in the general area of coastal oceanography, hydraulic and coastal engineering, applied mathematics, and scientific computation. The network will leverage advances in the numerical treatment of hydrodynamic equations in the past decade to create multi-physics models able to address pressing needs in practical modeling of various phenomena in the coastal zone with the goal of improving overall safety of coastal areas.
Ensuring the safety of property and commercial developments onshore and offshore requires an integrated approach, including phase-resolving wave modeling, tracking and mitigation of morphological changes, potential flooding in urban areas and monitoring of water quality. While protective structures and emergency plans for catastrophic storm waves and storm surges are well established, the confluence of global warming and sea level rise with other known natural risk factors and increasing human activity create a new set of hazards and requires new thinking in coastal modeling and the planning of mitigation strategies.
To address the challenges outlined above, we will rely on numerical techniques which are in each case tested against existing models and validated with experiments and field measurements. In our work with consulting companies and government agencies, we have identified a trend towards coupled models instead of traditionally used stand-alone models and a need for operational capabilities. These needs will be answered using new multi-physics models, state-of-the-art numerical methods, image recognition algorithms and innovative programming techniques such as GPU programming. The synergistic interplay of physical modelling, numerical analysis and large-scale simulation with lab experiments and field work plays an essential role in this network. Our project goes beyond the state of the art by improving existing numerical models, employing GPU programming and super-resolution techniques and building a unified suite of solvers that will allow us to address the multi-physics problems in coastal, estuarine, riverine and urban areas.
Campo scientifico
- natural sciencesearth and related environmental scienceshydrology
- natural sciencesphysical sciencesopticsmicroscopysuper resolution microscopy
- engineering and technologycivil engineeringwater engineeringcoastal and estuarine hydraulics
- natural sciencescomputer and information sciencescomputational sciencemultiphysics
- natural sciencesmathematicsapplied mathematicsnumerical analysis
Parole chiave
Programma(i)
- HORIZON.1.2 - Marie Skłodowska-Curie Actions (MSCA) Main Programme
Meccanismo di finanziamento
HORIZON-TMA-MSCA-DN - HORIZON TMA MSCA Doctoral NetworksCoordinatore
5020 Bergen
Norvegia