General knowledge of mathematics and physics at the level of completed courses at BUT. Basic knowledge of differential and integral calculus.

Credit can be obtained based on the results of mandatory projects and participation in exercises.

The subsequent combined exam will be written, only in the case of the threshold number of points obtained, there will be an oral retest.

The aim of the course is to acquaint students with the basic laws and theories of classical and modern fluid mechanics so that they are able to apply them to simple systems, clarify and predict their behavior. The challenge is for students to realize that fluid mechanics is the theoretical foundation of many engineering disciplines.

The subject allows students to gain knowledge about the properties of fluids, the balance of forces in fluids at rest, the movement of fluids in force fields, the basics of hydraulic machines and experimental methods. The student will learn to solve practical problems and create simplified models to study selected technical problems.

E-learning support for lectures and exercises.

• Programme MPC-JAE Master's, 1. year of study, winter semester, compulsory
  

• Properties of liquids. Information Sources. Laboratory, safety training, laboratory tour, measuring technology, measurement uncertainties.
• Calculation of losses in pipelines (longitudinal local), characteristics of the pipeline system. Laboratory, measurement of loss coefficients, comparison with theoretical calculation. Measurement of pump characteristics, checking the validity of affine relationships.
• Pump characteristics, NPSHR, NPSHA, affinity relationships. Laboratory, measurement of pump failure. Cooperation of pumps. Flow control, control fittings, speed control, working point.
• Hydraulic ram, analysis of real data. Laboratory, measurement of hydraulic ram, comparison of measured data with approximate calculation. Numerical simulation of transition events, possibilities, limits.