Process Dynamics

Process Dynamics
352-0913/01
čeština Process Dynamics
352-0913/02
čeština Process Dynamics
352-0913/03
angličtina

Anotace

Introduction in modeling and analysis of process dynamics. Basic steps in
system theory, description and analysis of dynamic systems. Modeling of
mechanical systems. Modeling of hydraulic and pneumatic sys-tems. Modeling of
thermal systems. Modeling of electric systems. Modeling of mechatronic
systems.
Fundamentals of dynamic systems analysis, response of dynamic systems,
stability, equilibrium. Numerical meth-ods for process dynamics analysis.
Simulation, numerical integration of differential equations, eigenvalue
problem. Software for simulation of dynamic systems. Case study.

Povinná literatura

Noskievič, P.: Modelling and Simulation of Mechatronic Systems using MATLAB-Simulink. Studijní texty v angličtině, Fakulta strojní, VŠB-TU Ostrava, 2013, 85 stran.
Isermann, R., M. Muenchhof: Identification of Dynamic Systems. Springer, 2011. ISBN 978-3-540-78878-2.
Labontiu, N.: System Dynamics for Engineering Students. Concept and Applications. Elsevier, Academic Press. 2018. .
Matthew, A. Davies, Tony L. Schmitz: System Dynamics for Mechanical Engineers. Springer, 2015. .
Keesman, K.J.: System Identification. Springer. 2011. .
Isermann, R., M. Muenchhof: Identification of Dynamic Systems. Springer, 2011. ISBN 978-3-540-78878-2.

Advised literature

Ljung,L. & Glad,T. Modeling of Dynamic Systems.Prentice Hall,Inc.Engelwood Cliffs, New Persey 07632. ISBN 0-13-597097-0.
Söderström, T. – Stoica, P.: System Identification. Prentice Hall
International (UK) Ltd., 1989. ISBN 0-13-881236-5.

zpět na vyhledávání

Language of instruction	čeština, čeština, angličtina
Code	352-0913
Abbreviation	DyProc
Course title	Process Dynamics
Coordinating department	Department of Control Systems and Instrumentation
Course coordinator	prof. Ing. Petr Noskievič, CSc.