24. Technical Equipment of Power Facilities

Module Name:

Module 24: Technical Equipment of Power Facilities

Code

M24EPE(Ba)

Module Elements:

Elective Subjects

Elements of Automation and Relay Protection Devices
Insulation and Overvoltage in Electrical Equipment
Power Devices
Electromechanical and Electronic Relays and Automation Devices
Microcontrollers and Microprocessors
Design of Systems Based on Programmable Integrated Circuits
Work Experience Internship 2

Semester Number:

6

Person responsible for the module

A.A. Kashevkin

Lecturer:

Elements of Automation and Relay Protection Devices - A.A. Kashevkin
Insulation and Overvoltage in Electrical Equipment - S.I. Latypov
Power Devices - A.A. Kashevkin
Electromechanical and Electronic Relays and Automation Devices – O.S. Gagolina
Microcontrollers and Microprocessors – P.A. Petrov
Design of Systems Based on Programmable Integrated Circuits – S.S. Moldakhmetov
Work Experience Internship 2 – A.A. Kashevkin

Language:

Russian, Kazakh

Curriculum relation:

Electrical Power Engineering (Ba)

Type of teaching  / number of hours per week and per semester :

6 semester: hours per week – 28 (lectures -3; workshops -3; labs-4; independent work -18);

Work Experience Internship 2 - 120

hours per semester – 540.

Workload:

Teaching Load: 150 hours

Extracurricular Classes: 270 hours

Work Experience Internship 2 - 120

Total: 540 hours

Credit Points:

18 ECTS

Conditions for Examinations:

For admission to the exam, the student must score at least 50 points out of 100 available for each subject of the module

Recommended Conditions:

Modules: Basics of Mathematics, Information and Communication Technologies, Industrial Electronics, Electrical Machinery, Electrical Engineering

Expected Learning Outcomes:

Know: principles of operation and design of various types of power devices, their technical parameters and properties, physical phenomena in power devices; syntax of programming languages for microcontrollers, conditions for building algorithms required for writing programs; the principles of construction and operation of the main types of relay protection devices and automation of electric power systems; methods of calculation of inclusion in the network of transformers and motors.

Be able to: formulate basic technical requirements when selecting a power device, to assess the condition of a power device; assemble various devices on microcontrollers of simple and medium complexity used in power systems, make an algorithm necessary for writing the program of the microcontroller, write a program for the microcontroller in any of the languages studied; flash the microcontroller with the help of the programmer; apply and produce a selection of electrical relay protection and automation, calculate electrical loads, short-circuit currents, power loss and voltage.

Possess the skills of selection of power devices, designing microcontroller based devices; analysis of modes of operation of relay protection and automation, as well as calculation of parameters of relay protection and automation devices.

Demonstrate the ability to: select power devices for specific operating conditions, independently test power devices, identify possible faults and their prompt elimination, design microcontroller devices; to develop, implement and set up electrical relay protection and automation

Intendend use/applicability

Module: Automation and control in the electric power industry

Content:

Power Devices

Electrodynamic and thermal processes in power device. Electrical contact. Electric arc. Insulation of power device. Magnetic circuits of electromagnets. Electromagnetic current and voltage relays. Thermal relays. Time relays. Switches. Fuses. Circuit breaker. RCD – residual current device. Command devices and switches. Contactors and magnetic starters. Contactless control devices.

Electromechanical and Electronic Relays and Automation Devices

Electromechanical devices of electrical power distribution systems. Thermal processes in power devices. Power contacts. Electric arc and switching process. Switches and disconnectors.

Elements of Automation and Relay Protection Devices

Automation devices. Basic definitions and classification of power divices. Basic physical phenomena and processes in power devices. Contactors and starters. Circuit breakers and fuses. Power semiconductor control devices.

Insulation and Overvoltage in Electrical Equipment

Operational electrical effects on electrical insulation of electrical equipment. General properties of external insulation of electrical eqyupment. Purpose and types of insulators. Formation of a discharge in air gaps at short-term and long term acting voltage. Features of the discharge along the dielectric surface. Environmental voltage effects.

Microcontrollers and Microprocessors

Bus microprocessor systems and cycles of exchange. Features of the main devices. Command system of the processor. Processor core and memory of microcontrollers. Organization of communication of the microcontroller with the environment and time. Auxiliary hardware of the microcontroller. Features of development of digital devices based on microcontrollers. Programming languages for microcontrollers.

Design of Systems Based on Programmable Integrated Circuits

Microcontrollers. Microprocessors. Computer languages. Assembler. C and C++. Arduino. Debug boards and hardware platforms.

Work Experience Internship 2

Design of power supply systems for facilities, power plants, substations.

Examination Form, module mark:

Comprehensive examination including:

Power Devices - written control examination
Electromechanical and Electronic Relays and Automation Devices - computer-based testing
Elements of Automation and Relay Protection Devices – written control examination
Insulation and Overvoltage in Electrical Equipment - computer-based testing
Microcontrollers and Microprocessors– computer-based testing
Design of Systems Based on Programmable Integrated Circuits – computer-based testing
Work Experience Internship 2 – internship report defense

Module mark: the result of the exam Power Devices / Electromechanical and Electronic Relays and Automation Devices

Technical/Multimedia Facilities:

Multimedia system.

Laboratories of Power Supply and Installation of Electrical Equipment, Digital Devices and Microprocessors, Electrical Power Engineering

Study Materials:

1. I. I. Aliyev, M. B. Abramov. Power Devices. Reference Book - M: radio soft, 2004.
2. A. A. Chunikhin. Power Devices. – M: Energoatomizdat, 2005
3. Abzhanov R. S. Electrical Part of the Power Plant. Lecture Notes. Almaty, AIES, 2009
4. G. H. Khozhin Electrical Part of Power Plants. Textbook. Almaty, AIES, 2006
5. L. D. Rozhkova Electro Equipment of Electric Power Plants and Substances.M.: Akademiya, 2004.
6. V. N. Kopyev. Relay Protection. Tomsk, 2001.
7. A. M. Fedoseyev. Relay Protection of Electric Power Systems, M, 2004.
8. B. A. Alekseyev, Maintenance of Relay Protection and Automation of Power Plants and Power Networks. Part 1. Electromagnetic Relay. / Ed M. Publishing House of the NC ENAS, 2000.
9. Guidelines for the Calculation of Short-Circuit Currents and Selection of Electrical Equipment. Rd 153-34.0-20.527- 98 Russian Joint Stock Company of Energy and Electrification of UES of Russia, Moscow-Publishing House of NC ENAS, 2001.
10.V. I. Boyko Microprocessors and Microcontrollers. - SPb.: BHV-Petersburg, 2004.
11.Y. V. Novikov. Introduction to Digital Circuitry. – M: BINOM. Laboratoriya Znaniy, 2007.
12.A. K. Naryshkin. Digital Devices and Microprocessors. - M: ACADEMA, 2006.
13.Jeremy Blum. Exploring Arduino: Tools and Techniques for Engineering Wizardry. 1st Edition, 2015. 14.V. B. Brodin, A.V. Kalinin. Systems on Microcontrollers and LSI of programmable logic; M.: Publishing House ECOM, 2002.
15.Y. Ugryumov. Digital Circuitry; St. Petersburg.: BHV Petersburg, 2000.

Date of last amendment

26.01.2023