Educational program

Code – Speciality

7M07116 - Heat and Power Engineering
The aim of the educational program

Training of master’s students in the field of thermal power engineering, capable of critically evaluating and effectively solving professional tasks, applying modern methods of research, modeling, and analysis of energy processes, and assessing the performance of energy systems and equipment.
Graduate model
Graduate qualification Professional sphere:

The field of science and technology related to the design, operation, analysis, and optimization of thermal power systems and equipment, including the production, distribution, and consumption of thermal energy
The object of professional occupation:

Thermal power enterprises; thermal and nuclear power plants; energy supply systems of industrial enterprises; small-scale energy facilities; high-temperature and low-temperature thermal technology installations and complexes; boilers of various types; reactors and steam generators of nuclear power plants; steam and gas turbines; power units, combined-cycle and gas-turbine plants.
Types of professional occupation:

- Design and calculation
- Design and engineering
- Innovative
- Production and technological
- Organizational and managerial
- Research
- Installation and commissioning
Functions of professional occupation:

Carrying out design and calculation work; developing and justifying technical solutions for designed facilities and technological schemes; organizing and conducting scientific research, experiments, and tests; processing, analyzing, and systematizing scientific and technical information; creating physical and mathematical models of processes and objects in the professional field; organizing the work of a team of performers, planning and managing task execution; searching for and implementing optimal solutions considering quality, reliability, safety, cost, and deadlines; ensuring compliance with technological discipline and occupational safety; organizing the operation, maintenance, and modernization of energy, thermal, and heat-technological equipment, networks, and energy systems; preparing justifications for the need for fuel and energy resources and developing the energy sector.
Graduate competences map
Formed core competencies Program outcome
1. Critical evaluation and effective solution of professional tasks using planning, communication, and management methods Make management decisions taking the human factor into account in the professional sphere
Apply communication skills and research strategies when conducting studies in the field of thermal power engineering, and build effective collaboration during experiments and data analysis.
2. Ability to effectively use foreign languages in professional communication Use professional terminology in a foreign language in oral and written communication, including business correspondence, negotiations, and participation in international projects.
3. Ability to perform calculation, analysis, and selection of thermal power engineering system equipment, taking into account operating modes, reliability, and energy efficiency Perform calculation and selection of thermal power system equipment, analyze its operating modes, and assess operational efficiency
4. Ability to develop and utilize models of thermal power systems, analyze their performance, and justify technical decisions for their improvement Proficiency in using specialized software tools for modeling and analyzing thermal power systems, as well as methods for justifying technical decisions to improve them
5. Ability to apply modern methods for calculating and analyzing the performance of thermal power equipment to justify technical decisions and enhance the efficiency of energy installations Apply modern methods for calculation, analysis, modeling, and optimization of thermal power equipment performance
Modular Curriculum
Base disciplines Profiling disciplines Additional types of study