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Module Name: |
Module 21: Basics of Equipment Operation |
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Code |
M21EPE(Ba) |
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Module Elements: |
Elective Subjects Electromagnetic Capability; |
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Semester Number: |
3, 4 |
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Person responsible for the module |
S.I. Latypov |
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Lecturer: |
Electromagnetic Capability – A.A. Savostin Basics of Heat Supply – A.V. Demyanenko Basics of Nanotechnology – N.V. Zykova Electroinsulating Devices – O.S. Gagolina Equipment of Electric Power Plants and Substations - S.I. Latypov Basics of Automation - N.V. Zykova Automatic Control – Y.V. Gerasimova Computer Networks – I.R. Kasimov WEB-Programming – N.V. Astapenko Electrical Power Generation – Y.M. Dariy Reliability and Quality of Power Energy – S.I. Latypov General Issues on Power Engineering – O.S. Gagolina Work Experience Internship 1 - O.S. Gagolina |
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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 :
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3 semester: hours per week – 16 (lectures -2; workshops -2; labs-2; independent work -10); hours per semester – 240. 4 semester: hours per week – 16 (lectures -2; workshops -2; labs-2; independent work -10); hours per semester – 240. Work Experience Internship 1 – 120; hours per semester – 360. |
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Workload: |
Teaching Load: 180 hours Extracurricular Classes: 300 hours Total: 600 hours |
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Credit Points: |
20 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: Basics of Mathematics. Physics. Basics of the Profession. |
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Expected Learning Outcomes: |
Know: physical and chemical processes at the micro level, main equipment used at modern power plants and substations, principles of electromagnetic compatibility of technical means and calculation of thermal processes, the basic concepts of automation, the basic principles of regulation and control, and the basic elements of automatic systems; the principles of construction of power plants and equipment of the electrical part of power plants and substations; the concept of providing consumers with power, methods of transmission and distribution of power, elements of relay protection and automation; methods of network configuration and testing. Be able to: apply methods of calculation and analysis of the properties of nanotechnology materials; analyze the operation of the power plant and substation on the schematic diagram; assess the electromagnetic environment in the operation of technical means; make design and technical decisions to limit the electromagnetic field, assess the thermal condition of objects, make functional schemes, to calculate indicators of management quality; apply and select equipment, elements of electrical networks, relay protection and automation, power supply systems and alternative and renewable power sources for power plants; configure network equipment settings. Possess the skills: hypothetical drawing up of nanostructures by means of nanoinstruments; reading of single-line schematic diagrams of power objects and their drawing up, as well as in questions of the choice of the equipment; development technical, schematic and organizational activities for ensuring electromagnetic compatibility, to solve problems on the basis of modern software packages; analysis of operating modes in the production, transmission and distribution of power, relay protection and automation; use the skills to organize local networks of different topologies. Demonstrate the ability to: use electrical insulation equipment; repair of electrical equipment, independently design and conduct research on automatic control systems; develop, implement and set up electrical equipment, electrical systems and networks, relay protection and automation for power plants; manipulating the parameters of program access to the network. |
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Intendend use/applicability |
Modules: Design of Electrical Systems |
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Content: |
Electromagnetic Capability Basic notions of electromagnetic compatibility. Sources of electromagnetic interference, their classification. Methods of description and presentation of interference. The way of interference penetration (parasitic channels). Basics of Heat Supply Technical thermodynamics. Law of thermodynamics. Thermodynamic processes. Basics of heat transfer theory. Heat power plants (boilers, furnaces and compressor plants). Basics of Nanotechnology Nanoscience and nanotechnology. Measurement methods in nanotechnology. Electroinsulating Devices Polymeric materials and their application in power engineering. Electrochemical processes at the enterprises of the power industry. Electric Power Plants and Substations General information on the operation of the power system. A method of constructing the annual load diagram. Types of power plants and basic quantities characterizing them. Equipment of Electric Power Plants and Substations Synchronous generators and their nominal parameters. Power transformers and autotransformers. Basic power devices. Basics of Automation General information on automation systems and their constituent elements. Sensors and transducers. Relay. Amplifiers. Non-contact magnetic relay and stabilizers. Execution units. Automatic control system. Automatic measuring systems. Automatic Control Classification of automated control systems (ACS). Description of ACS in the frequency domain. ACS Stability. Assessment of ACS quality and accuracy. Synthesis of ACS. Computer Networks Mastering the principles of organization and functioning of computer networks, features of the personal computer in networks. WEB-Programming Web-Programming is designed to promote students ' familiarity with computer telecommunications and possible approaches to the development of hypertext documents intended for publication in the global computer network of Internet. Training in the development of Web-pages on the basis of an integrated approach; training in Internet programming on the client and server side; training in the use of databases in the development of Web-projects; training in methods of marketing on the Internet, advertising and promotion of developed Internet-resources. Electrical Power Generation Types of power plants and the basic quantities characterizing the plants. Main equipment of power plants: synchronous generators, power transformers, autotransformers, electric motors, grounding devices, DC installations with batteries. Electrical diagrams of power plants. System of own needs of power plants. Management and control system. Reliability and Quality of Power Energy General information on the electrical systems. Main objects of the power systems and the values characterizing the reliability and quality of their work. Management and control systems. General Issues on Power Engineering Legal basis of power engineering, power resources of the Republic of Kazakhstan, development trends, principles of production, transmission, distribution of power, methods of automatic elimination of damage and abnormal conditions in the electrical part of power systems, main power consumers in the Republic of Kazakhstan. Work Experience Internship 1 Measures for safety, health and environment at the enterprise, structure of the technical department. Application of modern equipment of power plants, substations, power lines. |
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Examination Form, module mark: |
Comprehensive examination including: Electromagnetic Capability - reference paper |
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Technical/Multimedia Facilities: |
Multimedia system. IT room. Laboratory of Electrical Power Engineering |
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Study Materials: |
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Date of last amendment |
20.01.2023 |