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Terminated in academic year 2020/2021

Modeling and Simulation of Fluid Systems

Type of study Follow-up Master
Language of instruction Czech
Code 338-0545/01
Abbreviation MoSi
Course title Modeling and Simulation of Fluid Systems
Credits 5
Coordinating department Department of Hydromechanics and Hydraulic Equipment
Course coordinator prof. RNDr. Milada Kozubková, CSc.

Subject syllabus

Program of the subject for individual weeks (blocks):
1. The transfer of energy, types of energy, energy transfer efficiency, modeling and identification, hydraulic and Pneumatic network, methods of solutions, software
2. Resistance to motion, friction, pressure drop and static characteristics of pipes
3. Hydraulic and pneumatic supplies, physical properties of liquids and gases, elastic modulus
4. Static characteristics of fluid elements with local losses
5. Simulation of pressure drop and static characteristics in Matlab-Simulink-Simscape, defining the circuit pressure drop calculation, calculation of static characteristics
6. Unsteady flow, resistance to movement, acceleration resistance, resistance to deformation and capacity, hydraulic and pneumatic labeling resistance
7. Simulation of dynamic characteristics in Matlab
8. T-element, solutin of linear ordinary differential equations of higher order analytically and numerically - SimHydraulics
9. Laplace and Fourier transformation, transmission and system stability, physical meaning of the transmission of the first and second order.
10. Hydraulic accumulator and air receiver storage tank - mathematical model, definition, models of distributors and valves, the sequencing in the circuit management
11. Solving the circuit with pumps, centrifugal pump in SimHydraulics, 1D and 2D pump characteristics, sorting of pumps, serial and parallel circuits with pumps, modelling of circuit - pressure drop, static characteristics, hydraulic water hammer.
12. Solution of pneumatic circuits with pressure energy sources, static circuit characteristics, dynamic characteristics
13. Application to the nuclear energy as the dynamics of piping with a power source and the control elements
14. Consultation of individual programs, presentations

Literature

MATLAB User's Guide. The Mathworks, Inc., USA, www.mathworks.com.

Advised literature

MILLER, D.S. Internal Flow Systems. BHRA (Information Servis). 1990. ISBN 0-947711-77-5 .