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Simulating the hydrodynamics of sewer-grates using a 2D-hydraulic model

Author
Sanz-Ramos, M.; Tellez, J-D; Blade, E.; Gomez, M.
Type of activity
Presentation of work at congresses
Name of edition
5th SimHydro Conference: Which Models for Extreme Situations and Crisis Management?
Date of publication
2019
Presentation's date
2019-06-12
Book of congress proceedings
SimHydro 2019
First page
1
Last page
8
Publisher
Société Hydrotechnique de France (SHF)
Repository
http://hdl.handle.net/2117/135329 Open in new window
https://www.dropbox.com/sh/y9luidein8ovunv/AADaDuD6PyDdIdJn5W2YNiEAa?dl=0 Open in new window
Abstract
Sewer inlets are one of the most important elements for avoiding floods in urban areas, capturing runoff and introducing into the sewer system. Traditionally the inlets have been designed by resistance criteria, without including or analysing their hydraulic efficiency. Currently CFD techniques plays an important role in order to assess more efficient inlets, minimizing the need for flume experiment and taking into account the hydraulics for their design. 2D models are good enough to represents ...
Citation
Sanz-Ramos, M. [et al.]. Simulating the hydrodynamics of sewer-grates using a 2D-hydraulic model. A: SimHydro Conference. "SimHydro 2019". Société Hydrotechnique de France (SHF), 2019, p. 1-8.
Keywords
2D modelling, Infiltration method, Inlet grates, Urban drainage
Group of research
FLUMEN - River Dynamics and Hydrological Engineering

Participants