Model building using engineering principles (Modellezés mérnöki alapelvek felhasználásával)- VEMIVIM254M

: Last Updated: 18 April 2022

2nd semester of 2021/22, Room: I207/B and online
Time: Friday, for the details see the table below

The online lectures/tutorials will be held using MS Teams in the indicated time below.
Links will be provided to the course participants via e-mail through the Neptun system.

Lecture/Tutorial/Laboratory: Prof. Katalin Hangos (e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.)
Pózna Anna Ibolya (e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.)

The aim of the course is to present the fundamentals of dynamic modelling based on first engineering principles, and to make the students familiar with the basic methods of model building, analysis, verification and validation.

The evaluation is based upon four simple homework assignments and on a complex individual modelling task
The prerequisite for the course signature is to submit the assignments and the documented project work on the given deadline.

Lecture notes:

MODjegyzet

List of individual projects:

Offered projects

Choose an individual project in the Moodle course!

Results:

results_2022

Course contets:

block	date	topics	slides
1.	11 Feb 11:30-15:00	Lecture: Modelling aims, model types Modelling approach based on first engineering principles The 7 steps modelling procedure The model ingredients, construction of the model equations Simple conservation models Tutorial: Construction of simple dynamic models Deadline for the Homework: 18 Feb 2022 at 12:00 (via e-mail)	Model_intro Model_modalapok Model_AlapokGyak
2.	18 Feb 13:30-16:45	Lecture: Modelling of energy systems: Principles of thermodynamics, energy conservation model equations Modelling of chemical systems: Reaction kinetic models Tutorial: Building of simple models of energy systems Understanding of the dynamic model of the primary circuit in a simple pressurized water nuclear power plant Deadline for the Homework: 25 Feb 2022 at 12:00 (via e-mail)	Energy_models Model_EnergyGyak Energy_CaseStudy modell Chemical_models
3_	25 Feb 11:30-15:00	Lecture: Modelling of mechanical systems: Principles of mechanics, dynamic model equations in mechanical system models Dynamic models with both mechanical and energy system elements Tutorial: Understanding a simple dynamic turbine model Deadline for the Homework: 4 Mar 2022 at 12:00 (via e-mail)	Model_mechsyst Model_mechGyak TurbinaModell_tr2001_1_10
4.	4 March (online) 13:30-16:45	Lecture: Model analysis, calibration and validation Tutorial: Model verification Specification of the individual modelling project Deadline for the Homework: 18 Mar 2022 at 12:00 (via e-mail)	Model verification, calibration and validation Verification_tutorial
5_	18 March 11:30-15:00	Lecture: Modelling of electrical systems: Basic principles in electrical circuits, dynamic model equations in electrical system models Modelling of batteries Tutorial: Model buildig of simple electrical systems Understanding a complex battery model Deadline for the Homework: 29 Apr 2022 at 12:00 (via e-mail)	Electrical_models Model_battery
6_	29 Apr (online) 11:30-15:00	Consultations for the solution of the individual modelling project
X.	13 May	Submission deadline of the individual modelling project

Suggested literature:

K.M. Hangos, I.T. Cameron: Process Modelling and Model Analysis, Academic Press, 2001.