Buscar
Mostrando ítems 31-40 de 116
Analysis of two sources of variability of basin outflow hydrographs computed with the 2D shallow water model Iber: Digital Terrain Model and unstructured mesh size
(Elsevier, 2022)
[Abstract:] Modelling hydrological processes with fully distributed models based on the shallow water equations implies a high computational cost, which often limits the resolution of the computational mesh. Therefore, in ...
Flood risk in urban areas: modelling, management and adaptation to climate change. A review
(MDPI, 2022)
[Abstract:] The modelling and management of flood risk in urban areas are increasingly recognized as global challenges. The complexity of these issues is a consequence of the existence of several distinct sources of risk, ...
Editorial: flood susceptibility and risk maps as a crucial tool to face the hydrological extremes in developing countries: technical and governance aspects linked by a participatory approach
(Frontiers Media, 2022)
[Abstract:] In summary, this Research Topic wants to draw attention to two points of reflection: 1) The need to involve stakeholders at all levels in the planning of actions aimed at reducing the risks associated with ...
Análisis y evaluación de las alternativas de protección de las aguas subterráneas durante las operaciones de extracción de los residuos (alquitranes ácidos) en una laguna de Arganda del Rey (Madrid)
(Instituto Geológico y Minero de España, 2021)
[Resumen:] La Comunidad de Madrid está llevando a cabo la restauración integral de una antigua gravera contaminada con residuos peligrosos, mayoritariamente sulfonatos de petróleo (alquitranes ácidos), procedentes del ...
An Augmented Reality Facility to Run Hybrid Physical-Numerical Flood Models
(MDPI, 2020)
[Abstract] This article presents a novel installation for the development of hybrid physical-numerical flood models in an augmented reality environment. This installation extends the concept introduced by the well-known ...
Assessing Different Imaging Velocimetry Techniques to Measure Shallow Runoff Velocities During Rain Events Using an Urban Drainage Physical Model
(Copernicus GmbH, 2021)
[Abstract] Although surface velocities are key in the calibration of physically based urban drainage models, the shallow water depths developed during non-extreme precipitation and the potential risks during flood events ...
How Do Modeling Choices and Erosion Zone Locations Impact the Representation of Connectivity and the Dynamics of Suspended Sediments in a Multi-Source Soil Erosion Model?
(Copernicus GmbH, 2021)
[Abstract] Soil erosion and suspended sediment transport understanding is an important issue in terms of soil and water resources management in the critical zone. In mesoscale watersheds (>10 km2) the spatial distribution ...
Size Effect and Other Effects on Mode I Fracture Toughness Using Two Testing Methods
(Elsevier, 2021)
[Abstract] Mode I fracture toughness (KIC) is an intrinsic material property that quantifies its resistance to tensile fracture propagation. The International Society for Rock Mechanics has endorsed four methods to determine ...
MERLIN: a flood hazard forecasting system for coastal river reaches
(Springer, 2020)
[Abstract:] This study presents MERLIN, an innovative flood hazard forecasting system for predicting discharges and water levels at flood prone areas of coastal catchments. Discharge forecasts are preceded by a hindcast ...
Effect of rainfall uncertainty on the performance of physically based rainfall–runoff models
(Wiley, 2019)
[Abstract:] This paper analyses the effect of rain data uncertainty on the performance of two hydrological models with different spatial structures: a semidistributed and a fully distributed model. The study is performed ...