7М07129 Еnergy management

Educational program

7М07129 Еnergy management

Field of education

7М07 Engineering, manufacturing and construction industries

Direction of personnel training

7М071 Еngineering and еngineerin business

Group of educational programs

М099 -Electrical and Power Engineering

EP purpose

The purpose of the educational program is to train highly qualified personnel in the field of science, energy, education with system management, modern methodologies, strategic innovations, projects and management in the energy sector.

Language of education

Kazakh, Russian, English

Volume of the credits


The awarded academic degree

Master of Technical Sciences in the educational program "7M07129- Еnergy management"

Educational outcome

Upon completion of this program, it is expected that undergraduates for the purposes of personnel management and technological process will be able to:

ON1 Develop strategies and programs of management in the energy sector, based on the principles and methods of justification for innovative management of modern electric power industry with the interpretation of information for evaluating projects in the electric power sector.

ON2 To think critically and understand the role of history and philosophy in the modern system of views on management in the electric power industry.

ON3 Be able to formulate a problem, creatively approach its solution; knowledge of the methodology for the development of creative abilities; the ability to creatively use the accumulated experience and create new methods, taking into account the knowledge of the basics of management and psychology and taking into account the specifics of the specialty in a foreign language.

ON4 Use the mathematical apparatus and modern application software packages: to build mathematical models of electrical systems and networks for the analysis of their static and dynamic stability; for the mathematical interpretation of electrophysical phenomena.

ON5 Be able to collect, process, analyze and summarize scientific and technical information on the electric power industry, advanced domestic and foreign experience in the field of energy management. 

ОN6 Manage resources for creating digital models of technological processes for the production, transmission and distribution of electrical energy 

ON7 Offer innovative management solutions for modern versions of quality management systems based on international standards

ON8 In order to create and master a new class of voltage in the power system of Kazakhstan, be able to calculate the characteristics of high-voltage equipment and the modes of electric networks and ultra-high voltage systems 

ON9 Integrate computer-aided design systems into professional activities, implement the results of scientific and engineering experiments, mathematical models in energy facilities

ON 10 Analyze the influence of the electromagnetic environment of power facilities on the reliability indicators of automated process control systems

ON 11 In order to implement national programs on digitalization, energy conservation, and the development of renewable energy sources, solve engineering problems of energy management using the methods of natural sciences, innovative computer programs, and the physical and mathematical foundations of high voltages. 

ON 12 Apply knowledge of higher school pedagogy and have the ability to teach management disciplines in educational institutions of various levels, using existing programs and teaching materials. 

For applicants


Academic activity

The academic activity of the OP is carried out:

- within the framework of existing regulatory documents and methodological recommendations in the field of higher education in the field of energy,

- as a result of the implementation of regulatory documents regulating the educational and methodological process at the university;

- generalization and dissemination of new normative legal acts concerning methodological work;

- current and prospective planning of the educational and methodological work of the university; coordination of the educational and methodological complex of the discipline (UMKD) of the department for compliance with regulatory legal acts, the working curriculum and the educational program;

- monitoring the provision of the educational process with teaching materials, documenting the results;

- development of teaching materials; development and implementation of the working curriculum

Scientific activity

Material and technical base of the EP: For the implementation of the educational program, the faculty has laboratories: electronics and electrical engineering, electric drives and electric machines, relay protection and automation of electric power systems, plasma physics and thermonuclear energy, non-traditional and alternative energy sources, computer physics, high-voltage computer laboratory and mathematical modeling.

For the implementation of the educational program at the faculty there are laboratories:

  1. Laboratories for the course of electricity and magnetism - a total area of 48 m2;
  2. Laboratories for the course of atomic physics - a total area of 48 m2;
  3. Laboratory of Electrical Engineering and Electronics - total area of 48 m2;
  4. Laboratory of physics of gas discharge and vacuum technology - the total area of 48 m2;
  5. Laboratory of mechanics - the total area of 48 m2;
  6. Laboratory of Molecular Physics - total area 48 m2;
  7. Optics laboratory - total area 48 m2;
  8. Computer classes of the faculty - total area 48 m2

Scientific directions of the department of plasma physics, nanotechnology and computer physics:

-            scientific school Intellectual management of electric power systems

-            remote methods (technologies) of studying alternative energy on the example of remote access to the results of research on power plants TOKAMAK-10.

-            theoretical and experimental studies of dusty plasma, the creation of new models of such a plasma, the creation of new technologies based on dusty plasma.

-            application research: plasma technologies; their research and development

-            theoretical and experimental studies of dusty plasma, the creation of new models of such a plasma, the creation of new energy-intensive technologies based on dusty plasma

-            Organization of small-scale production of energy-saving gas-discharge lamps with increased intensity of illumination based on new technology

-            Development of technologies for producing nanostructured oxide semiconductors for a wide range of applications

-            Development of methods for the synthesis of nanostructured materials with luminescent properties.

-            Interrelation of nonlinear electrical, optical and fractal-geometric characteristics of nanostructured semiconductors.

-            Production of nanomaterials by pulsed plasma spraying and their use in production.

-            Development of technology for producing nano- and microglyn from montmorillonite.

-            Production of nanostructured composite materials based on titanium dioxide films and metal nanoparticles and the study of their structure and electronic properties.

International activity

Academic mobility: There are agreements with the Research Institute of MEI (Russia), NSTU(Russia), the Technical Institute of Orleans (France), the Valencian Polytechnic Institute (Spain), the Polytechnic Institute of Porto (Portugal) on academic mobility. This makes it possible to conduct joint research at partner universities of KazNU. al-Farabi within the framework of the main direction of Electric power engineering, including in the scientific areas "High voltage Engineering and electrophysics" - partner of the Moscow Power Engineering Institute, "Physics of Electric discharges and Plasma Technologies" - partner of the Tomsk Polytechnic Institute, "Unconventional and renewable energy" - partner of the University of Nantes (France), "Computer methods and modeling in the electric power industry" - partner of the University of Valencia (Spain), etc.

Quality assurance (Accreditation, rating, work with employers)

For the future employment of graduates of the program, the key employers are:

  • ·          Design and research organizations of the electric power industry
  • ·          Electric power generation, transportation and distribution enterprises
  • ·          Enterprises of related industries
  • ·          Enterprises directing their activities to the development of alternative and unconventional energy

- There were no graduates