Sediment transport and morphodynamics in marine and coastal waters with engineering solutions

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DNID: 101072443
EC Contribution
€26,187
Consortium Size
11 orgs
Start Year
2023
Summary

Coastal and estuarine areas are under constant erosion/sedimentation pressure. The sustainable development of these areas depends on our understanding of and ability to predict the effect of complex sediment transport and morphodynamic processes and the development of effective applied engineering solutions. Coastal protection is an important issue in the implementation of successful Integrated Coastal Zone Management (ICZM) plans. The objective of the intrersectoral Network SEDIMARE is the interdisciplinary training and award of a PhD degree to Researchers in coastal processes and engineering, aiming towards a sustainable coastal use and protection. The Network comprises 5 university beneficiaries, 3 private sector beneficiaries (1 Applied Research Institute, 1 corporation, and 1 SME), and 3 associated partner (1 university and 2 industrial ones). The Network will provide a training-through-research program to 12 Doctoral Candidates, which comprises comprehensive academic training including web-based teaching, inter-institutional co-supervision, intersectoral secondments, summer/winter schools, workshops, complementary activities, dissemination, and outreach activities. The research plan is organized into 3 Work Packages (WP): (1) Sediment Transport Processes, (2) Coupling of Flow, Sediment Transport, and Morphodynamics, and (3) Sustainable Coastal Engineering Solutions. Each WP includes several projects, whose implementation is based on the strong interaction between all beneficiaries. The topics include: complex sediment transport processes involving sand-mud mixtures, mixed-size sands, and granular-fluid mixtures; coupling between hydrodynamics (waves, storm surges, and tides), sediment transport, and morphological changes; and engineering solutions to issues/problems related to erosion/sedimentation with emphasis on sustainability and resilience. The research methods include effective process-based engineering modeling, advanced numerical simulations, and innovative experiments.

Consortium (11)

Project Results (31)

Source: CORDIS, the EU research results database.

Publications (13)
Bathymetric Evaluation by Remote Sensing Tools at an Energetic Estuary
RCEM 2025· 2025DOI
Parlak, M.S., Baldoni, A., Soldini, L., Postacchini, M.,Brocchini, M.
Initiation of Motion for Sand-Mud Bed Types
COASTAL DYNAMICS 2025· 2025DOI
Miranda, P.S., van der Werf1, J.J., Hulscher, S.J.M.H.
Large-Eddy Simulation of Mixed-Sand-Grain Sediment Transport over Fixed Ripples
DMPCO 2025· 2025DOI
Tsipas, I.G., Leftheriotis, G.A., Dimas, A.A.
Numerical Analysis of Particle Trajectories Driven by Currents and Waves in an Idealized Estuarine Model
DMPCO 2025· 2025DOI
Soori, N., Postacchini, M., Brocchini, M.
Numerical Investigation of Scour Evolution Around Monopile Structures Using sedInterFoam
DMPCO 2025· 2025DOI
Tiwari, N., Knaapen, M., Haeri, S., Attili, T.
Numerical Modeling for Scour near Cofferdams using Eulerian Two-Phase Flow Model
COASTAL DYNAMICS 2025· 2025DOI
Tiwari, N., Knaapen, M., Haeri, S., Whitehouse, R.
Numerical Modelling of Breaker Bar Morphodynamics and the Role of Longwave Presence
RCEM 2025· 2025DOI
Subbiah Elavazhagan, B., Maza, M., Lara, J.
Performance of Different Ramp Configurations Characterizing an Overtopping Wave Energy Converter Using Joint Probability Density Functions: Preliminary Numerical Results
41st IAHR World Congress· 2025DOI
Osouli, S., Postacchini, M., Sabbioni, I., Brocchini, M.
Structural Stability of the Brinkman–Forchheimer Equations for Flows in Porous Media With Variable Porosity
Mathematical Methods in the Applied Sciences· 2025DOI
Evangelos Petridis, Miltiadis V. Papalexandris
The Influence of Different Ramp Slopes on the Amount of Water Discharge in an OBREC: Preliminary Numerical Results in the Port of Ancona
DMPCO 2025· 2025DOI
Osouli, S., Postacchini, M., Sabbioni, I., Brocchini, M.
Combining X-Band Radar and Videocameras Data to Study Wave Propagation
ICTAM 2024· 2024DOI
Baldoni, A., Parlak, M.S., Postacchini, M., Marini, F., Lorenzoni, C., Serafino, F., Brocchini, M.
Evaluation of Nearshore Sea State by Using Remote Sensing Tools
AGU 2024· 2024DOI
Parlak, M.S., Baldoni, A., Soldini, L., Postacchini, M.,Brocchini, M.
Structural stability of the Brinkman–Forchheimer equations for flow in porous media with variable porosity
Equadiff 2024· 2024DOI
Petridis, E.
Deliverables (17)
Other Results (1)
Periodic Reporting for period 1 - SEDIMARE (Sediment transport and morphodynamics in marine and coastal waters with engineering solutions)