Modeling, Simulation and Optimization of Transport and Process Systems

Type of study	Doctoral
Language of instruction	Czech
Code	342-0980/01
Abbreviation	MSODaPS
Course title	Modeling, Simulation and Optimization of Transport and Process Systems
Credits	10
Coordinating department	Institute of Transport
Course coordinator	doc. Ing. Robert Brázda, Ph.D.

Osnova předmětu

1) Modeling a known structure of a selected part of a transport or process device using Inventor or ProEngineer.
2) Simulation of selected function of transport or process equipment - algorithmization of simulation model, simulation study, simulator input modeling, analysis of simulation output data, creation of suitable animation.
3) Optimization of transport and process equipment based on requirements for shape parameters, material parameters, functional parameters or energy requirements.

Povinná literatura

[1] Gelnar, D., Zegzulka, J. (2019). Discrete Element Method in the Design of Transport Systems. Springer.
[2] Matuttis, H. G., & Chen, J. (2014). Understanding the Discrete Element Method. Wiley.
[3] Munjiza, A.(2004). The Combined Finite - Discrete Element Method. Wiley.
[4] Norouzi, H. R., & Zarghami, R., Sotudeh-Gharebagh, R., Mostoufi, N. (2016). Coupled CFD-DEM Modeling. Wiley.

Doporučená literatura

[1] Tavarez, F. A. (2005). Discrete Element Method for Modeling Solid and Particulate Materials. University of Wisconsin.
[2] Chareyre, B. (2019). The Discrete Element Method for Granular Solids. Elsevier Science.
[3] Lu, Z., He, X., Zhou, Y.(2018). Discrete Element Method - based Collapse Simulation, Validation and Application to Frame Structures. Taylor & Francis.

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