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Modeling of interconnected flat open-channel flow : application to inland navigation canals

Author
Segovia, P.; Rajaoarisoa, L.H.; Nejjari, F.; Puig, V.; Duviella, E.
Type of activity
Journal article
Journal
Houille blanche-revue internationale de l eau
Date of publication
2018-10-01
Number
5-6
First page
87
Last page
95
DOI
10.1051/lhb/2018055
Repository
http://hdl.handle.net/2117/130184 Open in new window
URL
https://www.shf-lhb.org/articles/lhb/abs/2018/05/lhb2018055/lhb2018055.html Open in new window
Abstract
Inland navigation networks are composed of several artificial canals, usually characterized by no slope. These canals are large-scale systems that can be accurately described by means of the nonlinear Saint-Venant partial differential equations. However, the lack of an analytical solution for these equations is one of the reasons why simplified models have been developed. In this work, the Integrator-Delay-Zero model is used as the input-output model to link the water depths to the discharges. A...
Citation
Segovia, P. [et al.]. Modeling of interconnected flat open-channel flow : application to inland navigation canals. "Houille blanche-revue internationale de l eau", 1 Octubre 2018, núm. 5-6, p. 87-95.
Keywords
linear model / hydraulic model / Saint-Venant equations / inland waterways
Group of research
CS2AC-UPC - Supervision, Safety and Automatic Control
SAC - Advanced Control Systems

Participants