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Module Name: |
Module 23: Design of Electrical Systems |
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Code |
M23EPE(Ba) |
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Module Elements: |
Elective Subjects Electrical Engineering Equipment |
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Semester Number: |
5 |
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Person responsible for the module |
O.S. Gagolina |
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Lecturer: |
Electrical Engineering Equipment – A.A. Kashevkin |
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Language: |
Russian, Kazakh |
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Curriculum relation: |
Electrical Power Engineering (Ba) |
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Type of teaching / number of hours per week and per semester : |
5 semester: hours per week – 24 (lectures -3; workshops -2; labs-3; independent work -16); hours per semester – 360. |
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Workload: |
Teaching Load: 120 hours Extracurricular Classes: 240 hours Total: 360 hours |
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Credit Points: |
12 ECTS |
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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 |
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Recommended Conditions: |
Modules: Electric Power Plants and Substations, Basics of equipment operation, Electrical Engineering |
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Expected Learning Outcomes: |
Know: main characteristics of the electrical equipment used; principles of construction and operation of main types of relay protection devices and automation of electric power systems; the principles of operation of measuring instruments, the basics of the error theory, methods of measurement of electrical and non-electrical quantities; the theory of physical quantities conversion and principles of construction of measuring transducers; main properties required for analysis and calculation of power supply systems of industrial enterprises Be able to: select a potential power source for operation in the power system or for the needs of the end user; formulate basic technical requirements for the selection of power equipment; apply and select the elements of relay protection and automation; choose a measuring device for a given metrological characteristics, to measure the basic electrical quantities; to process the results of measurements of analog and digital devices, to use virtual devices in the LabVIEW environment; to choose sensors for instrumentation, to use signal converters depending on the specifics of the measuring task. Possess the skills to main characteristics of the electrical equipment used, analysis of the modes of operation of electric power and electrical equipment; of use of modern measuring technologies and their information support; experimentation in the field of measurements of various values and parameters by electric methods; calculation of power supply systems of enterprises of various industries. Demonstrate the ability to: development, implementation and commissioning of electrical power plants, electrical systems and networks; use modern measurement technologies and different types of sensors in relation to the technological processes of power facilities; design power supply systems of enterprises. |
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Intendend use/applicability |
Modules: Electric Power Plants and Substations, Basics of equipment operation, Electrical Engineering |
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Content: |
Electrical Engineering Equipment Electrothermal resistance settings. Induction heating installations. Induction heating installations. Installation of dielectric heating. Arc furnace. Electrolysis industrial plants. Plasma industrial plants. Sources of optical radiation (thermal, gas-discharge, pulse, lasers). Light devices. Start-up control equipment. Lighting installations. Rationing of lighting systems. Operation of lighting systems. Lighting of industrial premises and public buildings. Outdoor lighting of cities. Electromechanics AC micromachines, DC micromachines, rotary transformers and selsyn motors Modes of Power Systems Construction of electric power systems, modes of operation of power systems, determination of operating parameters, determination of power losses in systems. Influence of power quality on the operation of power systems. Data Measuring Equipment Development of materials relating to the measurement and evaluation, processing of measuring signals, study of modern principles of construction of power measuring equipment, measuring information systems and complexes, use of methods and measuring instruments in various practical areas. Engineering Measurements Classification of measuring instruments. Block diagrams of measuring instruments. Components and parts of measuring instruments. Magneto-electric devices, rectifiers and thermoelectric systems, electromagnetic and electrodynamic systems. Measuring converters of parameters of alternating currents and voltages. Electronic measuring instruments. Measurement of voltage in DC, AC voltage and current at low and high frequencies. Metrology of oscillographic measurements. Analog methods and recording tools Process sensors Basic notions of the converters of physical quantities and their classification, Physical Basics of The Sensors, Resistive Sensors, Semiconductor Photo Sensors, Galvanomagnetic Sensors, Thermoelectric Sensors, Piezoelectric Sensors, Capacitive Sensors Transducers of Measuring Signals Primary converters (generator and parametric sensors), secondary converters (amplifiers, voltage dividers and bridges, phase meters and frequency meters) and ADC. Principles of operation, transformation functions and application features. Power, information and other criteria for coordination of primary transducers with the object of measurement. Industrial Power Supply Basic notions of power supply systems, main electrical equipment of power substations, electrical connection diagrams in the power supply system, in-plant power supply, in-plant industrial power supply, electrical loads, power consumption and losses, parameters of electrical networks and their normal modes, compensation of reactive power in the power supply system, short circuits in power supply systems, selection of devices and conductors of the power supply system of facilities with a voltage above 1 kV, selection of electrical equipment at a voltage of up to 1 kV, power quality in power supply systems of facilities, automation and relay protection |
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Examination Form, module mark: |
Comprehensive examination including: Electrical Engineering Equipment – free-form examination |
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Technical/Multimedia Facilities: |
Multimedia system. Laboratories of Electrical Power Engineering and Power Supply and Installation of Electrical Equipment |
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Study Materials: |
1. John.Twidell. Renewable Energy Source. M, 2000. 2. L. I. Kuperman. Secondary Energy Resources and Energy Technological Combination of Industry. Kyev, 2006. 3. V. A. Ostreykovskiy. Reliability Theory. M.: Vysshaya shkola. 2003. 4. V. P. Shekhovtsov. Electrical and Electromechanical Equipment. - M: Forum: Infra-M, 2008. 5. Reference Book for Electric Lighting Design / G. M. Knorring, I. M. Fadin, V. N. Sidorov. - SPb.: Energoatomizdat, 2002. 6. V. N. Sazhin. Power Systems and Networks, Lecture Notes of AIES, 2004. 7. K. K. Tokhtibakiyev. Power Systems and Networks. Methods of Calculation of Power Losses and Their Rationing. Textbook, Almaty, 2005. 8. E. G. Atamalyan. Devices and Methods of Measurement of Electrical Quantities. - M.: Drofa, 2005; 9. G. G. Rannev. Methods and Tools of Measuring. - M: Akademiya, 2004; 10. B. V. Dvoryashin. Metrology and Radio Measurements. - M: Akademiya, 2005; 11. A. F. Kotyuk. Sensors in Modern Measurements. – M.: Radio i svyaz, Goryachaya liniya - Telekom, 2006. 12. R. G. Jackson. Latest Sensors. – M: Tekhnosfera, 2008. 13. B. I. Kudrin. Industrial Power Supply. - M.: Intermet Engineering, 2005. 14. V. P. Shekhovtsov. Calculation and Design of Power Supply Circuits. - M: Forum: Infra-M, 2004. |
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Date of last amendment |
26.01.2023 |