20. Basics of the Profession

Module Name:

Module 20: Basics of the Profession

Code

M20EPE(Ba)

Module Elements:

Elective Subjects

Introducation to the Profession;
Introducation to the Specialty;
Materials Science in Power Industry;
Basics of Materials Science;
Computer Graphics;
Computer Simulation;
Programming Technics;
Software Programming Languages;
Practical Training

Semester Number:

1,2

Person responsible for the module

S.I. Latypov

Lecturer:

Introducation to the Profession – S.I. Latypov

Introducation to the Specialty – O.S. Gagolina

Materials Science in Power Industry – A.M. Aytulina

Basics of Materials Science – N.V. Zykova 

Computer Graphics –S.I. Latypov

Computer Simulation –S.I. Latypov

Programming Technics – L.V. Dolmatova

Software Programming Languages – N.V. Astapenko

Language:

Russian, Kazakh

Curriculum relation:

Electrical Power Engineering (Ba)

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

1  semester: hours per week – 8 (lectures -1; workshops -1; labs-1; independent work -5);

hours per semester – 120.

2  semester: hours per week – 16 (lectures -3; workshops -1; labs-1; independent work -11);

Workload:

Teaching Load: 120 hours.

Extracurricular Classes: 240 hours.

Practical Training: 30 hours.

Credit Points:

13 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:

-

Expected Learning Outcomes:

Know spheres, objects, subjects  and types of professional activity of the bachelor in the specialty Electrical Power Engineering; prospective directions of development of the specialty; prospects of development of power industry; the basic applications for working with design documentation, calculations and models in the designing.

Be able to successfully participate in the educational process in accordance with the approved working curriculum of the specialty; use various options of the applications studied to obtain during in the designing.

Possess the skills: use knowledge on the power industry in the further study of special subjects; to develop drawings of finished products, as well as mathematical processing of project data using a personal computer.

Intendend use/applicability

Modules: Basics of Equipment Operation

Content:

Introducation to the Profession

Characteristics of professional activity of graduates of educational programs in the specialty. Requirements for the level of qualification and competence of the bachelor. Electrical Power Engineering is the leading component of power engineering. History of electronics development, its role in modern scientific and technical progress. A brief historical overview of the development of electrical equipment. Application of nanotechnology in the modern world.

Introducation to the Specialty

Sphere, objects, subjects and types of professional activity of the bachelor in the specialty Electrical Power Engineering. Prospective directions in the field of electrical power engineering. Equipment, technologies of production of the main shops of enterprises and their technical and economic indicators. Materials Science in Power Industry

Classification of materials. Mechanical, electrical and thermal properties of materials. Magnetic materials. Dielectric materials. Conductor materials. Physical basics of semiconductor devices. Semiconductor devices.

Basics of Materials Science

Classification of materials. Structural materials. Metallic materials. Metal alloys used in production. Non-metallic materials. Composite materials. Nanostructured materials. Conductor materials. Semiconductor materials. Dielectric materials. Magnetic materials.

Computer Graphics

Hardware and functional capabilities of a modern personal computer. Pictorial symbols of elements in the drawing. Drawing up design documentation. Use of Splan application for preparation of drawings. Use of AutoCAD to create drawings.

Computer Simulation

Hardware and functional capabilities of a modern personal computer. MATLAB application for mathematical simultion of electrical processes. Electronics Workbench application for simulation of electrical processes. Microsoft Office Excel to solve common tasks. Microsoft Office Word for design documentation. AutoCAD to create drawings.

Programming Technics

Basics of algorithmization, methods of recording algorithms, basics of programming technology, programming style, structure of programs, methods of debugging and testing programs, data types, general information on object-oriented programming.

Software Programming Languages

Learning of the classification of programming languages, data types, operations, operators of C++ programming language,   program   development   using   subroutines, standard modules, programming style, programming quality indicators, methods of debugging and testing programs, basics of object-oriented programming, memory and addressing, program development using pointers, programming features in C++.

Practical Training

Examination Form, module mark:

Comprehensive examination including

Introduction to the Profession– reference paper; Introduction to the Specialty – reference paper;

Materials Science in Power Industry –computer-based testing;

Basics of Materials Science – computer-based testing;

Computer Graphics - free-form examination

Computer Simulation - free-form examination

Programming Technics - free-form examination

Software Programming Languages - free-form examination

Practical Training – training report defense

Technical/Multimedia Facilities:

Multimedia system. IT room.

Laboratory of Electrical Engineering and Materials Science

Study Materials:

1. K. D. Dukenbayev. Power Engineering of Kazakhstan.Moving to Market. - Almaty.; Gylym, 1999.

2. G. A. Yevdokunin. Power Systems and Networks.Textbook for electric power specialties. - SPb.; PublishingHouse of M. P. Sizov. 2001.

3. E.I. Bass, V.G. Doroguntsev. Relay Protection of ElectricPower Systems. Ed. by A.F. Dyakov. - M., PH of MPEI,2002.

4. Y. D. Sibikin, M. Y. Sibikin. Power Safety at Operation ofPower Equipment of the Industrial Enterprises. – M:Akademiya, 2004.

5. G. I. Silman. Materials Science. - M:Akademiya, 2008

6. L. V. Zhuravleva. Electrical Materials Science - M.:Akademiya, 2004

7. O. S. Maryakov. Materials Science. – M: Akademiya, 2008

8. I. Chernukh. Simulation of Electrical Devices in MATLAB,SimPowerSystems and Simulink. – M: Piter PH, 2007.

9. A. S. Zhuravlev. AutoCAD for Designers. Standards of theUnified System for Design Documentation in AutoCAD2009/2010/2011. Practical Tips from a Designer. – M: Nauka Itekhnika, 2010.

10. V. Dyakonov. VisSim+Mathcad+MATLAB. VisualMathematical Simulation. M: SOLON-Press, 2004.

11. I. I. Aliyev. Virtual Electrical Engineering. ComputerTechnologies in Electrical Engineering and Electronics. –Kyiv: RadioSoft, 2003.

12. N.A. Litvinenko. C++Programming Technology.Beginners //St. Petersburg 2009, BHV

13. M.V. Kuznetsov. C++ Master Class in Problems andExamples //St. Petersburg 2010, BHV

Date of last amendment

26.01.2023