Earth physics: atmosphere and ocean
- Numerical simulation and optimisation of fluids:
- Computational fluid dynamics (CFD).
- Analysis and simulation of interaction of waves, coastal
structures and floating bodies.
- Hydraulic and hydrological simulation. Study of fluvial
and urban flood zones.
- Renewable energies.
- High performance computing (HPC) and cloud computing:
- Complex problem solving using internal and external
hardware.
- Climate change, applied computational sciences:
- Data analysis, simulation and climate change impact
studies in sectors such as renewable energies.
- Impact of future climate conditions on aquaculture.
- Study of climate-related mortality and/or diseases.
- Artificial neural networks:
- Prediction, data analysis, simulation and intelligent
management of reservoirs and water resources.
- Design and optimization of offshore renewable energy
devices.
- Design and optimization of coastal structures.
- Training in fluid simulation, CFD techniques.
- Impact of future climatic conditions on aquaculture.
- Study of flood zones: fluvial and urban (including hydraulic
and hydrological simulation).
- Intelligent management of reservoirs and water resources
based on neural networks.
- HPC and cloud computing. Calculation and modelling
services and/or access to the use of our CPD.
- Study of climate-related mortality and/or diseases.
- Study of the hydrological cycle and atmospheric rivers.
Modeling salinity drop in estuarine areas under extreme precipitation events within a context of climate change: effect on bivalve mortality in Galician Rías Baixas
Authors
MARISELA DES VILLANUEVA
Fernandez Novoa, Diego
MARIA TERESA DE CASTRO RODRIGUEZ
JOSE LUIS GOMEZ GESTEIRA
Sousa, M.C.
RAMON GOMEZ GESTEIRA
Journal
SCIENCE OF THE TOTAL ENVIRONMENT Vol. 790 (pages 148147 to 148147)
Anomalies of continental precipitation associated with El Niño Southern Oscillation: the role of moisture contribution from oceanic and terrestrial sources