Model d’erosió i transport de sediments a les conques catalanes | icgc

Model d’erosió i transport de sediments a les conques catalanes

Els següents articles estan relacionats amb l’eina de modelització numèrica Iber, treballs relacionats amb la producció i transport de sediments, i en la generació i propagació d’avingudes.

  • Dehghan-Souraki, D., López-Gómez, D., Bladé-Castellet, E., Larese, A., Sanz-Ramos, M., 2024. Optimizing sediment transport models by using the Monte Carlo simulation and deep neural network (DNN): A case study of the Riba-Roja reservoir. Environmental Modelling & Software 175, 105979. https://doi.org/10.1016/j.envsoft.2024.105979.
  • Duo, L., Bladé Castellet, E., Juny, M.S., Ramos, M.S., 2024a. Delineation of riparian areas based on the application of two-dimension hydraulic modelling. Science of The Total Environment 170809. https://doi.org/10.1016/j.scitotenv.2024.170809.
  • Duo, L., Sánchez-Juny, M., Bladé i Castellet, E., 2024b. Ecological Environment Assessment System in River–Riparian Areas Based on a Protocol for Hydromorphological Quality Evaluation. Water (Basel) 16, 3025. https://doi.org/10.3390/w16213025.
  • Innocenti, L., Bladé, E., Sanz‐Ramos, M., Ruiz‐Villanueva, V., Solari, L., Aberle, J., 2023. Two‐Dimensional Numerical Modeling of Large Wood Transport in Bended Channels Considering Secondary Current Effects. Water Resour Res 59. https://doi.org/10.1029/2022WR034363.
  • Liro, M., Ruiz-Villanueva, V., Mikuś, P., Wyżga, B., Bladé Castellet, E., 2020. Changes in the hydrodynamics of a mountain river induced by dam reservoir backwater. Science of the Total Environment 744, 140555. https://doi.org/10.1016/j.scitotenv.2020.140555.
  • López-gómez, D., Blas-moncalvillo, M. De, Castejón-zapata, M., Gassó-sánchez, Á., Bladé, E., Sanz-ramos, M., Dehghan-souraki, D., Marco, L.G., Santillán-sánchez, D., Soria-garcía, J.M., Román-saldaña, J.S., Galván-plaza, R., García-vera, M.Á., 2024. Análisis del transporte de sedimentos en el curso bajo del río Ebro mediante modelización numérica de una avenida controlada. Revista Ingeniería deñl Agua 23, 246–262. https://doi.org/10.4995/ia.2024.2176.
  • Ruiz‐Villanueva, V., Gamberini, C., Bladé, E., Stoffel, M., Bertoldi, W., 2020. Numerical Modeling of Instream Wood Transport, Deposition, and Accumulation in Braided Morphologies Under Unsteady Conditions: Sensitivity and High‐Resolution Quantitative Model Validation. Water Resour Res 56, 0–3. https://doi.org/10.1029/2019WR026221.
    Sanz-Ramos, M., Bladé, E., Dolz, J., Sánchez-Juny, M., 2022. Revisiting the Hydraulics of the Aznalcóllar Mine Disaster. Mine Water Environ 41, 335–356. https://doi.org/10.1007/s10230-022-00863-w.
  • Sanz-Ramos, M., Bladé, E., González-Escalona, F., Olivares, G., Aragón-Hernández, J.L., 2021. Interpreting the Manning Roughness Coefficient in Overland Flow Simulations with Coupled Hydrological-Hydraulic Distributed Models. Water (Basel) 13, 3433. https://doi.org/10.3390/w13233433.
  • Sanz-Ramos, M., Bladé, E., Oller, P., Furdada, G., 2023a. Numerical modelling of dense snow avalanches with a well-balanced scheme based on the 2D shallow water equations. Journal of Glaciology 1–17. https://doi.org/10.1017/jog.2023.48.
  • Sanz-Ramos, M., Bladé, E., Sánchez-Juny, M., Dysarz, T., 2024. Extension of Iber for Simulating Non–Newtonian Shallow Flows: Mine-Tailings Spill Propagation Modelling. Water (Basel) 16, 2039. https://doi.org/10.3390/w16142039.
  • Sanz-Ramos, M., Bladé, E., Silva-Cancino, N., Salazar, F., López-Gómez, D., Martínez-Gomariz, E., 2023b. A Probabilistic Approach for Off-Stream Reservoir Failure Flood Hazard Assessment. Water (Basel) 15, 2202. https://doi.org/10.3390/w15122202.
  • Sanz-Ramos, M., López-Gómez, D., Bladé, E., Dehghan-Souraki, D., 2023c. A CUDA Fortran GPU-parallelised hydrodynamic tool for high-resolution and long-term eco-hydraulic modelling. Environmental Modelling & Software 105628. https://doi.org/10.1016/j.envsoft.2023.105628.
  • García-Alén, G., Montalvo, C., Cea, L., Puertas, J., 2024. Iber-PEST: Automatic calibration in fully distributed hydrological models based on the 2D shallow water equations. Environmental Modelling & Software 177, 106047. https://doi.org/10.1016/j.envsoft.2024.106047.
  • García-Feal, O., González-Cao, J., Gómez-Gesteira, M., Cea, L., Domínguez, J.M., Formella, A., 2018. An accelerated tool for flood modelling based on Iber. Water (Switzerland) 10, 1–23. https://doi.org/10.3390/w10101459.
  • Sanz-Ramos, M., Bladé Castellet, E., Palau Ibars, A., Vericat Querol, D., Ramos-Fuertes, A., 2019. IberHABITAT: evaluación de la Idoneidad del Hábitat Físico y del Hábitat Potencial Útil para peces. Aplicación en el río Eume. Ribagua 1–10. https://doi.org/10.1080/23863781.2019.1664273.