Resilient Solutions for Coastal, Urban, Estuarine and Riverine Environments

Información del proyecto

RESCUER

Identificador del acuerdo de subvención: 101119437

DOI

10.3030/101119437

Fecha de la firma de la CE 5 Julio 2023

Fecha de inicio 1 Febrero 2024

Fecha de finalización 31 Enero 2028

Financiado con arreglo a

Marie Skłodowska-Curie Actions (MSCA)

Coste total

Sin datos

Aportación de la UE

€ 2 752 149,60

Coordinado por

UNIVERSITETET I BERGEN
Norway

CORDIS proporciona enlaces a los documentos públicos y las publicaciones de los proyectos de los programas marco HORIZONTE.

Los enlaces a los documentos y las publicaciones de los proyectos del Séptimo Programa Marco, así como los enlaces a algunos tipos de resultados específicos, como conjuntos de datos y «software», se obtienen dinámicamente de OpenAIRE .

Resultado final

Report on nearshore wave models

An account of the mathematical equations defining the nearshore wave model is given. The limitations of the model with respect to wave parameters and bathymetry are delineated, and the discretization and numerical implementation is outlined.

Report on Senigallia pilot

The Senigallia pilot site is characterized by a series of recent instrumentation aimed at monitoring the estuarine area of the Misa River, which flows into the Italian side of the Adriatic Sea.Field data are of different kinds and are collected at different locations, thus allowing one to calibrate and validate numerical models for riverine, estuarine and coastal applications. Water elevation, velocity and discharge are collected (only during flood events) in the final reach of the river by a stream gauge installed about 1 km upstream of the mouth. The offshore wave climate is recorded by an acoustic profiler located 4 km off the mouth, while a tide gauge located in the Senigallia harbor provides the tide oscillations. Furthermore, a video-monitoring station provides images that allow the reconstruction of the wave field and seabed bathymetry in the nearshore area.The data report will be based on both older and more recent recorded events, and will include data collected by both a newly installed X-band radar (that complements the video-monitoring station in the reconstruction of wave field and seabed bathymetry in the nearshore area) and an additional stream gauge, which will be installed in the coming months upstream of the present stream gauge. The new gauge will complement the old one recording events of smaller intensity, thus allowing its use for the calibration of numerical models in case of non-stormy events.

Report on urban flow and the transport of debris

Mathematical equations and numerical implementation

Report on river/estuarine hydrodynamics

Complete description of the governing 2D shallow water equations as an approximation of the 3D Navier-Stokes ones used to build the hydrodynamic models for river flow and estuarine flow; as well as numerical approximations used to solve them in terms of finite volumes with emphasis in the order of approximation used and time stability. Presentation of the performance of the numerical methods in GPU for some representative cases.

Social media and outreach materials

Social media accounts: Twitter, LinkedIn and Instagram; Outreach materials: a logo, a flyer and a motion-design video presenting the project will be produced.

Website

Website presenting the project and the participating organizations.

Publicaciones

Lagrangian Acceleration as a Diagnostic for Wave Breaking in the Nearshore Zone

Autores: Rosa Maria Vargas‐Magaña, Henrik Kalisch, Marc Buckley, Maria Bjørnestad, Tessa Gronemann, Karoline Holand, Jochen Horstmann, Michael Streßer, Sébastien Fromenteau
Publicado en: Journal of Geophysical Research: Oceans, Edición 131, 2026, ISSN 2169-9275
Editor: American Geophysical Union (AGU)
DOI: 10.1029/2024JC022193

Incorporating the vertical velocity in a coupled Lagrangian–Eulerian approach for particle transport in shallow flows

Autores: Vallés, P., Segovia-Burillo, J., Morales-Hernández, M., Roeber, V., and García-Navarro, P.:
Publicado en: Advances in Water Resources, Edición 205, 2025
Editor: Elsevier
DOI: 10.1016/J.ADVWATRES.2025.105085__;

A novel energy-bounded Boussinesq model and a well balanced and stable numerical discretisation

Autores: Magnus Svärd, Henrik Kalisch
Publicado en: Journal of Computational Physics, Edición 520, ISSN 1090-2716
Editor: Elsevier
DOI: 10.1016/J.JCP.2024.113516

Wave-driven current and vortex patterns at an open beach: Insights from phase-resolving numerical computations and Lagrangian measurements

Autores: Andreas Bondehagen, Volker Roeber, Henrik Kalisch, Marc P. Buckley, Michael Streßer, Marius Cysewski, Jochen Horstmann, Maria Bjørnestad, Olufemi E. Ige, Hege G. Frøysa, Ruben Carrasco-Alvarez
Publicado en: Coastal Engineering, Edición 193, 2024, ISSN 0378-3839
Editor: Elsevier BV
DOI: 10.1016/J.COASTALENG.2024.104591

Probabilistic assessment of human instability in urban areas exposed to flood events

Autores: Gabriele Bernardini, Francesco Lagona, Marco Mingione, Matteo Postacchini
Publicado en: Scientific Reports, Edición 15, 2025, ISSN 2045-2322
Editor: Springer Science and Business Media LLC
DOI: 10.1038/S41598-025-25267-Y

A 2D shallow water flow model with 1D internal boundary condition for subgrid-scale topography

Autores: P. Vallés, J. Fernández-Pato, M. Morales-Hernández, I. Echeverribar, P. García-Navarro
Publicado en: Advances in Water Resources, Edición 189, 2024, ISSN 0309-1708
Editor: Elsevier BV
DOI: 10.1016/J.ADVWATRES.2024.104716

Mixing-phase model for shear-induced contractive/dilative effects in unsteady water-sediment mixture flows

Autores: S. Martínez-Aranda, J. Fernández-Pato, P. García-Navarro
Publicado en: Advances in Water Resources, Edición 188, 2024, ISSN 0309-1708
Editor: Elsevier BV
DOI: 10.1016/J.ADVWATRES.2024.104710

Real-time ocean wave prediction in time domain with autoregression and echo state networks

Autores: Holand, Karoline; Kalisch, Henrik
Publicado en: Frontiers in Marine Science, Edición 11, 2024, ISSN 2296-7745
Editor: Frontiers
DOI: 10.3389/FMARS.2024.1486234

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Resultado final

Publicaciones

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