Gurantor department | Department of Hydromechanics and Hydraulic Equipment | Credits | 10 |

Subject guarantor | doc. Ing. Marian Bojko, Ph.D. | Subject version guarantor | doc. Ing. Marian Bojko, Ph.D. |

Study level | postgraduate | Requirement | Choice-compulsory |

Year | Semester | winter + summer | |

Study language | Czech | ||

Year of introduction | 2013/2014 | Year of cancellation | |

Intended for the faculties | FS, FMT | Intended for study types | Doctoral |

Instruction secured by | |||
---|---|---|---|

Login | Name | Tuitor | Teacher giving lectures |

DRA10 | doc. Ing. Sylva Drábková, Ph.D. | ||

JAN10 | prof. Ing. Jaroslav Janalík, CSc. | ||

KOZ30 | prof. RNDr. Milada Kozubková, CSc. |

Extent of instruction for forms of study | ||
---|---|---|

Form of study | Way of compl. | Extent |

Full-time | Examination | 25+0 |

Part-time | Examination | 25+0 |

Objective: The course aims to extend students' knowledge in multi-dimensional flow of incompressible and compressible fluids in laminar and turbulent regime, and especially on analytical methods of solutions and numerical solutions. Especially in case of the flow of compressible fluids there is specified mathematical model of time-dependent problem. An important application is the solution of wrap and resistance of bodies and fluid interaction with a rigid body.

Individual consultations

Project work

Balance of mass and momentum, or energy. The balance equations in integral and differential form, equation of continuity, Navier-Stokes equations, theorem of change of momentum.
Turbulence, Reynolds equation, correlation of rate fluctuations, spectral analysis of the kinetic energy of turbulence, dissipation equation.
Boundary layer, velocity or temperature profiles
Scalar transfer, turbulence models and numerical solution options. Some selected practical problems.
Stability of the flow, vortex structures, wakes, secondary flows, fluid interaction with solid body, aeroelasticity.
Euler turbine equation and its application in centrifugal machines.
Wrap and resistance of bodies, aerodynamics.

INCROPERA, F., P. ET AL.. Fundamentals of heat and mass transfer. 6th ed.. Hoboken : Wiley, c2007 – xxv. 997 s. ISBN 0-471-45728-0 (váz.)978-0-471-45728-2 (dotisk : váz.)

HEWITT, G.F. VUSSILLICOS, E.N. Prediction of Turbulent Flows, Cambridge Univ. Press, 2005, 343 str. ISBN-13978-0-521-83899-3
SHAUPHNOSSY, E.J., KATZ, I.M., SCHAFFER, J.P. Fluid Mechanics, Oxford Univer. Press, 2005, 1017 str., ISBN-13-978-0195154-51-3

no....................................................

Subject has no prerequisities.

Subject has no co-requisities.

Balance of mass and momentum, or energy. The balance equations in integral and differential form, equation of continuity, Navier-Stokes equations, theorem of change of momentum.
Turbulence, Reynolds equation, correlation of rate fluctuations, spectral analysis of the kinetic energy of turbulence, dissipation equation.
Boundary layer, velocity or temperature profiles
Scalar transfer, turbulence models and numerical solution options. Some selected practical problems.
Stability of the flow, vortex structures, wakes, secondary flows, fluid interaction with solid body, aeroelasticity.

Task name | Type of task | Max. number of points
(act. for subtasks) | Min. number of points | Max. počet pokusů |
---|---|---|---|---|

Examination | Examination | 3 |

Show history

Conditions for subject completion and attendance at the exercises within ISP:

Show history

Academic year | Programme | Field of study | Spec. | Zaměření | Form | Study language | Tut. centre | Year | W | S | Type of duty | |
---|---|---|---|---|---|---|---|---|---|---|---|---|

2022/2023 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2022/2023 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2021/2022 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2021/2022 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2020/2021 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2020/2021 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2019/2020 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2019/2020 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2018/2019 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2018/2019 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2017/2018 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2017/2018 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2016/2017 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2016/2017 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan | |||||

2015/2016 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | P | Czech | Ostrava | Choice-compulsory | study plan | |||||

2015/2016 | (P2106) Metallurgy | (2109V037) Thermal Engineering and Fuels in Industry | K | Czech | Ostrava | Choice-compulsory | study plan |

Block name | Academic year | Form of study | Study language | Year | W | S | Type of block | Block owner |
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