Hydrol Processes 28(24):5897–5918īladé E, Cea L, Corestein G, Escolano E, Puertas J, Vázquez-Cendón E, Dolz J, Coll A (2014) Iber: herramienta de simulación numérica del flujo en ríos. In: Building partnerships, pp 1–10īermúdez M, Neal JC, Bates PD, Coxon G, Freer JE, Cea L, Puertas J (2017) Quantifying local rainfall dynamics and uncertain boundary conditions into a nested regional-local flood modeling system. Clim Change 134(3):387–401īennett TH, Peters JC (2000) Continuous soil moisture accounting in the hydrologic Engineering Center Hydrologic Modeling System (HEC-HMS).
![merlin project predictions 2017 merlin project predictions 2017](https://video-images.vice.com/test-uploads/articles/5e5fcb04a8b206009b8aa173/lede/1583337779185-GettyImages-694750716.jpeg)
Hydrol Earth Syst Sci 19(4):1659–1676Īrnell NW, Gosling SN (2016) The impacts of climate change on river flood risk at the global scale. In Plan de Xestión do Risco de Inundación da Demarcación Hidrográfica de Galicia-Costa (ciclo 2015–2021) Official JournalĪlvarez-Garreton C, Ryu D, Western AW, Su CH, Crow WT, Robertson E, Leahy C (2015) Improving operational flood ensemble prediction by the assimilation of satellite soil moisture: comparison between lumped and semi-distributed schemes.
![merlin project predictions 2017 merlin project predictions 2017](https://venturebeat.com/wp-content/uploads/2020/05/deserted-islands-devops.png)
J Inst Water Environ Manag 8:490–496Īguas de Galicia (2016) Anexo 1 Caracterización das ARPSIS. J Flood Risk Manag 11:S766–S782Īcreman MC (1994) Assessing the joint probability of fluvial and tidal floods in the river-roding. Abdullah J, Muhammad NS, Julien PY, Ariffin J, Shafie A (2018) Flood flow simulations and return period calculation for the Kota Tinggi watershed Malaysia.