Applied hydraulics : open-channel flows

5 credits

30.0 h + 30.0 h

Teacher(s)

Soares Frazao Sandra;

Language

English

Prerequisites

Fundamental hydraulics or fluid mechanics, as taught in LGCIV1051

Main themes

Fundamentals in Hydrology
Open-channel flows (steady flows)
Weirs, and applications to spillways

Aims

At the end of this learning unit, the student is able to :

Contribution of the course to the program objectives (N°)

AA1.1, AA1.2, AA1.3, AA2.1, AA2.2, AA2.4, AA4.1, AA4.4, AA5.2, AA5.3

Specific learning outcomes of the course

Determine the design discharge for several types of civil engineering works
Design irrigation channels
Design urban sewers
Calculate steady flow profiles in channels
Describe and calculate the effects of local changes in the channel geometry on the flow (narrowing, widening, change in bed slope, presence of bridge piers)
Design of spillways (normalized Creager profile)

Transversal learning outcomes of the course :

Create and use and Excel sheet to solve in a simple and efficient way problems in hydraulic engineering
Summarize the acquired knowledge in order to present on the blackboard a clear and concise answer to a given question

Initiate a general questioning on the use of water resources

The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.

Content

Introduction : purpose of open-channel hydraulics
Hydrology: rain, water cycle, measurement and analysis of discharges, rainfall-discharge relationships (unit hydrograph, rational method, Hauff-Vicari)
Steady open-channel flows: channels, sewers and rivers. Steady uniform flow: Chezy and Manning equations, optimal trapezoidal section, compound and heterogeneous channels, normal depth calculation in channels and sewers. Gradually varied flows: specific energy, critical depth, critical slope, flow profiles (theory and practical calculations). Flow in natural rivers: pseudo-uniform flow. Rapidly varied flow: hydraulic jump, drawn jump. Flow in non-prismatic geometry: flow between a gate and a reservoir, change in bed slope, change in channel width, presence of bridge piers, Venturi flumes, bottom sill, broad crested weir.
Weirs and spillways: Thin crested weir, normalized Creager profile, free or drawn outflow, spillways

Teaching methods

Lectures, practical exercises and laboratory, all in close link with each other
Numerous examples of applications and real cases where the methods developed in the course were applied
Use of didactic softwares and creation of Excel calculation sheets

Evaluation methods

Exercises (40 % of the final mark): homeworks (hydrology, spillways) and written test consisting in steady flow water profiles calculations using the Excel sheet. The final mark for the exercises is conditioned by the success in the written test.
Oral exam (60 %) on the theoretical aspects (3 questions covering the entire course), with a preparation on the blackboard

Online resources

Moodle web site for the course
MOOC edX « Hydraulique fluviale 1 : écoulements à surface libre »

Bibliography

Chow, "Open-channel hydraulics".
Lencastre, "Hydraulique générale".

Faculty or entity

Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme

Sigle

Credits

Prerequisites

Aims

Master [120] in Civil Engineering

GCE2M

Master [120] in Architecture and Engineering

ARCH2M