Educational program

More details
Code – Speciality 7M07103 - Heat and Power Engineering
The aim of the educational program

Development of a domestic scientific and operational school for thermal power enterprises and research institutions, development of personal qualities among undergraduates, as well as the formation of general cultural (universal, general scientific, social-personal, instrumental, etc.) and professional competencies in accordance with the requirements for this EP.
Graduate model
Graduate qualification Professional sphere:

Includes a set of technical means, methods and methods of human activity for the use of heat, control of its flows and the conversion of other types of energy into heat.
The object of professional occupation:

- installations for conditioning heat carriers and working fluids;
- technological liquids, gases and vapors, melts, solid and loose bodies as heat carriers and working bodies of power and heat engineering installations;
- fuel and oils;
- regulatory and technical documentation and standardization systems;
- systems of diagnostics and automated control of technological processes in heat power engineering and heat engineering.
Types of professional occupation:

- calculation and design
- design and engineering;
- innovative;
- production and technological;
- organizational and managerial;
- research;
Functions of professional occupation:

- development of work plans and programs for scientific research and technical development, preparation of individual tasks for performers;
- collection, processing, analysis and systematization of scientific and technical information on the topic of research, the choice of methods and means for solving the problem;
- development of methodology and organization of experiments and tests, analysis of their results;
- preparation of scientific and technical reports, reviews, publications based on the results of research;
development of physical and mathematical models of the studied processes, phenomena and objects related to the professional field;
- organization of the work of the team of performers, determination of the order of work;
- search for optimal solutions when creating products, taking into account the requirements of quality, reliability and cost, as well as deadlines, life safety and environmental friendliness;
- prevention of industrial injuries, occupational diseases, prevention of environmental violations;
- organization of work on the implementation of architectural supervision in the manufacture, installation, adjustment, testing and commissioning of manufactured products and objects;
- development of measures to comply with technological discipline, improve methods of organizing work in a team, improve production technology;
- ensuring uninterrupted operation, proper operation, repair and modernization of energy, heat engineering and heat technology equipment, electrical and heat networks, gas and product pipelines;
- determination of production needs in fuel and energy resources, preparation of justifications for the development of energy facilities, reconstruction and modernization of energy supply systems.
Graduate competences map
Formed core competencies Program outcome
1. The ability to carry out international cultural and speech communication in the professional field using modern communication tools and technologies Apply and possess communication skills that enable effective implementation of professional activities
2. Ability to conduct research, design and analysis in the field of thermal power Apply the theories of systems analysis, principle and structure, elements and methods, qualitative and quantitative system evaluation methods
3. Ability to have basic knowledge of the functioning of thermal power systems Understand and evaluate the operation of heat and power supply systems of industrial enterprises, principles of rational organisation of heat and power systems of industrial enterprises
4. Ability to conduct research and design in the field of thermal power engineering Apply knowledge to conduct theoretical and experimental research in the field of thermal power engineering and increase scientific output and publication activity
Understand and apply the methodology of scientific experiment, basic concepts, methods of processing experimental results
5. The ability to search, store, process and analyze information from various sources and databases Analyse and apply the prospects of scientific and technical development, achievements of science and technology, advanced domestic and foreign experience in the field of heat power engineering
Apply the main provisions of the system approach to the study of the information system of the heat power industry
6. Ability to innovate in the heat energy sector Analyse and evaluate the obtained heat engineering solutions from the point of view of ecological feasibility
Apply knowledge to conduct theoretical and experimental research in the field of thermal power engineering, increase scientific output and publication activity
Analyse and apply the principles of operation, technical characteristics of equipment and design features of used installations in heat supply systems
Modular Curriculum
Base disciplines Profiling disciplines Additional types of study