Course Details
Fluid Mechanics
Academic Year 2023/24
NTB030 course is part of 1 study plan
NPC-SIS Winter Semester 2nd year
Introduction to the subject mechanics liquids. Basic equations water flow: Bernoulli, Chézy, Darcy-Weisbach etcr. Water flow in pressure pipeline systems, laminar and turbulent flow. Shock waves in pipes, direct and indirect hydraulic shock. Time slope of shock wave.
Course Guarantor
Institute
Objective
Basic information on fluid behaviours and effect, phenomenon generated in water flow in pressure systems.
Knowledge
The student upgrade his knowledge of hydraulics, especially about water flow in pressure systems.
Syllabus
1. Introduction, basic terms, fluid properties. Hydrostatics and relative calm of fluid.
2. Hydrodynamics, types of fluids, continuity equation. Ideal fluid flow.
3. Measurement of velocity and pressure.
4. Flow of viscous fluids.
5. Laminar flow in the pipe.
6. Turbulent flow.
7. Pressure loss due to friction. Pressure loss of local resistence.
8. Unsteady motion of fluids. Flow in channels.
9. Computational fluid dynamics – CFD method.
10. Internal and external aerodynamice.
2. Hydrodynamics, types of fluids, continuity equation. Ideal fluid flow.
3. Measurement of velocity and pressure.
4. Flow of viscous fluids.
5. Laminar flow in the pipe.
6. Turbulent flow.
7. Pressure loss due to friction. Pressure loss of local resistence.
8. Unsteady motion of fluids. Flow in channels.
9. Computational fluid dynamics – CFD method.
10. Internal and external aerodynamice.
Prerequisites
Physics, mathematics and basic plumbing systems and heating.
Language of instruction
Czech
Credits
5 credits
Semester
winter
Forms and criteria of assessment
course-unit credit and examination
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
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Introduction, basic terms, fluid properties. Hydrostatics and relative calm of fluid.
2. Hydrodynamics, types of fluids, continuity equation. Ideal fluid flow.
3. Measurement of velocity and pressure.
4. Flow of viscous fluids.
5. Laminar flow in the pipe.
6. Turbulent flow.
7. Pressure loss due to friction. Pressure loss of local resistence.
8. Unsteady motion of fluids. Flow in channels.
9. Computational fluid dynamics – CFD method.
10. Internal and external aerodynamice.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Properties of water. Hydrostatics.
2. Relative calm of liquids. Fluid Mechanics – flow regimes.
3. Continuity equation.
4. Bernulliho equation for a perfect fluid.
5. Measurement of velocity and pressure of liquids.
6. Bernulliho equation for a real fluid.
7. Laminar flow.
8. Turbulent flow.
9. Local pressure drops.
10. Flow in channels.