Subject description - AD1M14TP1

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AD1M14TP1 Magister Team Project Extent of teaching:14+6c
Guarantors:  Roles:P Language of
teaching:
CS
Teachers:  Completion:Z
Responsible Department:13114 Credits:5 Semester:L

Anotation:

Philosophy of electric drive dimensioning, dimensioning and design of drives with induction motors and drives with induction motors fed by frequency converters, specificity of AC machines frequency control, drives with ventilator load characteristic and possible savings of electric energy, applications of electric drives for various types of working mechanisms (fans, pumps, conveyers), synchronous motors fed from current source inverter, permanent magnet synchronous motor drives and reluctance motor drives, stepping motors, electric drives to the explosive risk environment, electric braking, reliability and methods of reliability indicators calculation, organisation of building development, technical documentation and its structuring

Course outlines:

1. Introduction, basic philosophy of electric drive dimensioning
2. Organisation of building development, technical documentation and its structuring
3. Dimensioning and design of drives with induction motors
4. Dimensioning and design of drives with induction motors fed by frequency converters
5. Specificity of AC machines frequency control
6. Drives with ventilator load characteristic and savings of electric energy
7. Application examples of electric drives for various types of working mechanisms (fans, pumps, conveyers)
8. Asynchronous motor fed by voltage source inverter with amplitude control
- time waveforms, dimensioning of components
9. Asynchronous motor fed by voltage source inverter with pulse width modulation
- time waveforms, dimensioning of components
10. Synchronous motor fed by current source inverter
- time waveforms, dimensioning of components
11. Electric drives to the explosive risk environment
12. Permanent magnet synchronous motor drives and reluctance motor drives, stepping motors,
speed control principles, feeding converters
13. Reliability, basic terminology, methods of reliability indicators calculation
14. Electric braking

Exercises outline:

1. Instructions to the labs, security directions, laboratory rules, assignation of project tasks, calculation of examples
2. Calculation of examples, solution of assigned project tasks
3. Excursion to "Cementárny Radotín"
4. Excursion to "Teplárna Malešice"
5. Excursion to "Česká televize"
6. Excursion to "Vodárny Káraný"
7. Excursion to "Čistírna odpadních vod Podbaba"
8. Asynchronous motor fed by voltage source inverter with amplitude control
- designing on simulation programme
9. Asynchronous motor fed by voltage source inverter with pulse width modulation
- designing on simulation programme
10. Synchronous motor fed by current source inverter
- designing on simulation programme
11. Excursion to "Česká rafinérská Kralupy"
12. Solution of assigned project tasks
13. Excursion to "Ústav jaderné fyziky AV ČR a Ústav jaderného výzkumu v Řeži"
14. Credit

Literature:

1. Bose, B.K.: Modern Power Electronics;University of Tenessee, Knoxville, 1991
2. Sen, P.C.: Principles of Electric Machines and Power Electronics;Queen´s University Kingston, Ontario, Canada, 1996

Requirements:

Credit conditions: attendance by the study laws, activity in course of the exercises, proper solution and elaboration of assigned project tasks

Subject is included into these academic programs:

Program Branch Role Recommended semester
MKEEM2 Electrical Machines, Apparatus and Drives P 2


Page updated 24.10.2019 05:51:35, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)