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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
Book chapter
Book
Advances in hydroinformatics : SimHydro 2017 : choosing the right model in applied hydraulics
First page
75
Last page
90
Publisher
Springer
Date of publication
2018-01-01
ISBN
978-981-10-7217-8 Open in new window
DOI
https://doi.org/10.1007/978-981-10-7218-5 Open in new window
Repository
http://hdl.handle.net/2117/119978 Open in new window
https://www.springer.com/gp/book/9789811072178 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 to obtain the general input–output model for a canal with inflows and...
Citation
Segovia, P., Rajaoarisoa, L.H., Nejjari, F., Puig, V., Duviella, E. Modeling of interconnected flat open-channel flow : application to inland navigation canals. A: "Advances in hydroinformatics : SimHydro 2017 : choosing the right model in applied hydraulics". Berlín: Springer, 2018, p. 75-90.
Keywords
Hydraulic model, Inland waterways, Linear model, Saint-Venant equations
Group of research
CS2AC-UPC - Supervision, Safety and Automatic Control
SAC - Advanced Control Systems

Participants