Course detail
Hydraulics of Open Channel Flow
FAST-BR052Acad. year: 2023/2024
Solution of the open channel hydraulics problems (uniform and nonuniform steady flow, unsteady flow, stability of the bottom and banks of the channel), solution using software of open channel flow HEC-RAS.
Software application, demonstration of case studies.
Hydraulic solution of the structures appearing on channels (bed drops, weirs, bridges, culverts).
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Department
Entry knowledge
Rules for evaluation and completion of the course
Aims
The students will obtain knowledge about nonuniform steady flow and unsteady flow, about transport and dispersion of conservative component in rivers and about transport of sediment.
Students complete goal of this course which include getting up principles of flow in the open channels. Also students get experience in flow in the open channels through term projects.
Study aids
Prerequisites and corequisites
Basic literature
JANDORA, Jan a Jan ŠULC. Hydraulika. Studijní opora. Brno: FAST VUT, 2007. ISBN 978-80-7204-512-9.
Recommended reading
BOOR, Boris, Jiří KUNŠTÁTSKÝ a Cyril PATOČKA. Hydraulika pro vodohospodářské stavby. SNTL/ALFA, 1968.
HAVLÍK, Vladimír, Petr INGEDULD, Stanislav VANĚČEK a Evžen ZEMAN. Matematické modelování neustáleného proudění. ČVUT Praha, 1992.
CHOW, Ven Te. Open-channel hydraulics. McGraw-Hill Kogakusha. Tokyo. 680 stran. International student edition 1959.
ŘÍHA, J. a kol. Matematické modelování hydrodynamických a disperzních jevů. PCDIR Brno, 1997. ISBN 80-214-0827-8.
Classification of course in study plans
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
1. Introduction to open channel flow.
2. Basic theory of open channels flow.
3. I. Mathematical formulation of 1D flow problem.
4. II. Mathematical formulation of 1D flow problem.
5. Saint-Venant equations.
6. Mathematical formulation of the problem of transportation and dispersion.
7. Numerical solution.
8. The movement of sediment load.
9. The issue of determining the open channel roughness.
10. Practical problems the flow calculation.
11. Structures on streams (weirs, bridges, culverts).
12. Hydraulic solutions crossing bridges and culverts with watercourses.
13. The issue of ice phenomena on rivers
Exercise
Teacher / Lecturer
Syllabus
1. Introduction, solving example No. 1
2. Creating a basic task in the HEC-RAS, procedure for the definition geometry data and boundary conditions. Solving the example.
3. Start calculation, results presentation. Solution Example 1 by HEC-RAS.
4. Computation of the water levels in the reach of channel for various boundary conditions.
5. Practicing on examples.
6. Entering inefficient areas and levees.
7. Determination of capacity in the specified section of the flow.
8. Tributary, flow change location.
9. Structures on stream - bridges.
10. Structures on stream - culverts.
11. Structures on stream - bed drop, weirs.
12. Structures on stream - weirs.
13. Presentation of exercises, presentations of dealt works in the workplace. Granting of credit.