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Course title -
Course code KFY/CM204
Organizational form of instruction Lecture + Lesson
Level of course Doctoral
Year of study not specified
Semester Winter and summer
Number of ECTS credits 0
Language of instruction English
Status of course Compulsory-optional
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Lecturer(s)
  • Havlica Jaromír, doc. Ing. Ph.D.
Course content
The course is intended particularly for students who deal with continuum fluid modeling within their dissertation. The course deepens student's knowledge of hydrodynamics: - Physical properties of fluids: solid phase, liquids, gases, continuum, characteristic properties of gases and liquids, surface phenomena and surface tension - Momentum transport under different flow conditions: diffusion and convective momentum transport in fluid flow, viscosity of gases and liquids, comparison of diffusion and convective mechanisms, description of various flow regimes - Viscous fluid dynamics: surface forces, equations of fluid motion, boundary conditions for fluid flow, non- Newtonian fluids, 1D viscous flow of Newtonian and non-Newtonian fluids, equations of motion in different coordinate systems - Potential flow: definitions, properties and examples of potential flow, forces acting on a barrier in potential flow, linear waves on surface of ideal fluid - Vorticity: definition, concept of vorticity, dynamics of vorticity, rotating fluid, formation of secondary flows - Fluid flow at small Reynolds number: introduction, Stokes equation, forces and torques acting on a moving rigid body, velocity field around a moving sphere, constraints on Stokes flow description, suspension dynamics, flow in porous structures - Boundary layer: flow near the planar plate, Prandtl's theory, velocity profiles in boundary layer, boundary layer separation, aerodynamics and boundary layer, boundary layer and mass and heat transport - Turbulence: introduction, basic turbulent flow equations, statistical description of turbulence, Reynolds equations, homogeneous and isotropic turbulence, Kolmogor's theory, turbulence scales, boundary layer, other aspects of turbulence

Learning activities and teaching methods
unspecified
Learning outcomes
Prerequisites
unspecified

Assessment methods and criteria
unspecified
Recommended literature


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester