Course unit code:
447M9_4D
Course unit title:
Modeling and Control of Chemical Processes
Mode of delivery, planned learning activities and teaching methods:
lecture – 2 hours weekly (on-site method)
laboratory practice – 3 hours weekly (on-site method)
Credits allocated:
6
Recommended semester:
Riadenie procesov – (full-time, attendance method), 0. semester
Level of study:
3.
Prerequisites for registration:
none
Assesment methods:
Students individually work on projects and prepare written reports. Students pass exams after defence of their projects. The final rating will be determined in accordance with rules established by the study rules STU.
Learning outcomes of the course unit:
Students have become familiar with the advanced approaches to modelling, simulation and control of specific processes in chemical technology, they have become skills in development of program systems for simulation and control of dynamic systems
Course contents:
1. Linear dynamic and static system (allowance 2/0)
2. Nonlinear dynamic and static system (allowance 2/0)
3. Processes with mass acumulation (allowance 4/0)
4. Processes with heat transfer (allowance 6/0)
5. Processes with mass transfer (allowance 6/0)
6. Processes with chemical reaction (allowance 6/0)
Recommended or required reading:
Basic:
  • RAY, W H. – OGUNNAIKE, B A. Process dynamics, modelimg, and control. New York : Oxford University Press, 1994. 1260 s. ISBN 0-19-509119-1.
  • INGHAM, J. Chemical Engineering Dynamics: Modelling with PC Simulation. Weinheim : VCH, 1994. 701 s. ISBN 3-527-28577-6.
  • MARLIN, T E. Process Control: Designing Processes and Control Systems for Dynamic Performance. Boston : McGraw-Hill, 2000. 1017 s. ISBN 0-07-116357-3.
Language of instruction:
Slovak, English
Assessed students in total:
29

A 100 %

B 0 %

C 0 %

D 0 %

E 0 %

FX 0 %

Name of lecturer(s):
J. Oravec (2022/2023 – Winter)
M. Bakošová (2021/2022 – Winter)
M. Bakošová (2020/2021 – Winter)
Course supervisor:
doc. Ing. Monika Bakošová, CSc.
Last modification:
5. 10. 2019

Department:
Department of Information Engineering and Process Control

AIS: 2019/2020   2000/2001   2000/2001  

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