Course Details

Hydraulics and Hydrology

Academic Year 2023/24

BR005 course is part of 2 study plans

B-P-C-MI (N) / MI Summer Semester 2nd year

B-P-C-SI (N) / N Summer Semester 3rd year

Basics of fluid statics – properties of fluids, pressure in a fluid at rest, hydrostatic forces on plain and curved surface, floatation
Basics of hydrodynamics, water flow in pressure pipeline systems.
Flow in systems with a free surface, in open channels and flow over hydraulic structures.
New finding in hydraulics of water structures.
Basics of groundwater flow, wells, collection galleries.
Basics in hydrology, water balance, precipitation, evaporation, surface runoff from watershed and its analysis, maximum and minimum discharges, M-day and N-year discharges.
Students will take the course partly in computational and laboratory exercises.

Credits

5 credits

Language of instruction

Czech

Semester

summer

Course Guarantor

prof. Ing. Jan Jandora, Ph.D.

Institute

Institute of Water Structures

Forms and criteria of assessment

course-unit credit and examination

Entry Knowledge

Basic knowledge of mathematics, physics, mechanics and statics.

Aims

The course wiil provide students with basic informatio on fluid behaviours and effects, phenomenons generated in water flow in pressure systems and open channels. Students will gain knowledge of natural water cycle and measuring of related qualitative and quantitative parameters.
Students complete goal of this course which include getting up principles of hydraulics and hydrology.

Basic Literature

JANDORA, Jan, Vlastimil STARA a Miloš STARÝ. Hydraulika a hydrologie. Brno: Akademické nakladatelství CERM, 2011. ISBN 978-80-7204-739-0.
JANDORA, Jan. Hydraulika a hydrologie. Studijní opora. Brno: FAST VUT, 2005.
JANDORA, Jan. Hydraulika – příklady. Studijní opora. Brno: FAST VUT, 2017.

Recommended Reading

JANDORA, Jan a Hana UHMANNOVÁ. Základy hydrauliky a hydrologie. Příklady. Brno: Akademické nakladatelství CERM, 1999. ISBN 80-214-1160-0.
BOOR, Boris, Jiří KUNŠTÁTSKÝ a Cyril PATOČKA. Hydraulika pro vodohospodářské stavby. SNTL/ALFA, 1968.
KOLÁŘ, Václav, Cyril PATOČKA a Jiří BÉM. Hydraulika. SNTL/ALFA, 1983.
MUNSON, Bruce R. a kol. Fundamentals of Fluid Mechanics. New York: John Wiley&Sons, 2013. ISBN 978-1-118-11613-5.
WIDDEN, Martin. Fluid mechanics. New York: Macmillan Press Ltd, 1996. ISBN 978-0-333-51799-4.

Syllabus

1 to 2 Hydraulics, fluid properties, hydrostatic, pressure forces on plane and curved surfaces, floatation.
3rd Hydrodynamics, continuity and momentum equation, Bernoulli equation, application of impulse theorem.
4 to 5 Water flow in pressure pipeline systems, laminar and turbulent flow. Calculation of hydraulic long and short pipes and combined pipes. Inverted siphon, sucker, pump design.
6 to 7 Steady uniform flow with free surface in open channels. Energetic head of profile. Critical flow. Supercritical and subcritical flow.
8th Overflow of water on overfalls. Orifice discharge and overfalls with reservoirs.
9th Hydraulic jump with bottom regime. Connection of water surface of two pools, design of rectangle stilling basin.
10th Hydraulic computation of typical communication objects, bridges and culverts.
11th Basics of groundwater flow (Darcy’s formula, filtration velocity, filtration coefficient, Dupuit theorem, groundwater flow in surrounding of a well)
12th Hydrology: occurrence of water and water cycle, hydrological balance, definition and characteristics of watershed, precipitation, evaporation, measurement of hydrological variables.
13th Surface runoff from watershed and its determination. Flow regimes in open channels. Maximum and minimum discharges, m-day and N-year discharges, winter regime, influence on runoff regime, influence of reservoirs on regulation of outflow from watershed, etc.

Prerequisites

Basic knowledge of mathematics, physics, mechanics and statics.

Specification of controlled instruction, the form of instruction, and the form of compensation of the absences

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Offered to foreign students

Not to offer

Course on BUT site

https://www.vut.cz/en/students/courses/detail/273112

Lecture

13 weeks, 2 hours/week, elective

Syllabus

1 to 2 Hydraulics, fluid properties, hydrostatic, pressure forces on plane and curved surfaces, floatation.

3rd Hydrodynamics, continuity and momentum equation, Bernoulli equation, application of impulse theorem.

4 to 5 Water flow in pressure pipeline systems, laminar and turbulent flow. Calculation of hydraulic long and short pipes and combined pipes. Inverted siphon, sucker, pump design.

6 to 7 Steady uniform flow with free surface in open channels. Energetic head of profile. Critical flow. Supercritical and subcritical flow.

8th Overflow of water on overfalls. Orifice discharge and overfalls with reservoirs.

9th Hydraulic jump with bottom regime. Connection of water surface of two pools, design of rectangle stilling basin.

10th Hydraulic computation of typical communication objects, bridges and culverts.

11th Basics of groundwater flow (Darcy’s formula, filtration velocity, filtration coefficient, Dupuit theorem, groundwater flow in surrounding of a well).

12th Hydrology: occurrence of water and water cycle, hydrological balance, definition and characteristics of watershed, precipitation, evaporation, measurement of hydrological variables.

13th Surface runoff from watershed and its determination. Flow regimes in open channels. Maximum and minimum discharges, m-day and N-year discharges, winter regime, influence on runoff regime, influence of reservoirs on regulation of outflow from watershed, etc.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

1 to 2 Calculations of communicating vessels and pressure forces on plane and curved surfaces.

3rd Ideal fluid flow calculations using the Bernoulli equation and the continuity equation.

4 to 5 Calculation of flow real fluid in pipelines (hydraulic long and short pipes).

6 to 7 Calculations of steady uniform flow with free surface in open channels and critical depth calculations.

8th Calculations of orifice discharge and overflow.

9th Calculations of hydraulic jump and design of a rectangular stilling basin.

10th The calculations of water flow in bridges and culverts.

11th Basic calculations of groundwater flow - wells.

12th Calculation of runoff from the watershed. 13th Estimates of m-day discharges.