Students study | • Technologies and equipment of various energy type transformation (thermal, electric, renewable resources energy);
• Energy saving systems of premises and enterprises; • Simulate various energy processes in modern laboratories equipped with the latest facility; |
Practice | • Training introductory;
• General engineering; • Energy technologic; • Pre-graduation productive practice. Based on the leading enterprises and research institutions of the Republic. |
Students gain | • skills in development and implementation of energy efficient technologies in various fields of industry;
• skills in energy analysis of enterprises; • skills in accounting of fuel and energy resources consumption, work with automated systems for energy resources monitoring, energy consumption calculation, determination of its rational use. |
Graduates | Can work in all spheres connected to power industry, head energy departments of enterprises, make energy audit, install and repair power systems. |
Requirements | • secondary education;
• language proficiency (determined by the results of the interview; appropriate language level to master the educational program is needed). |
Description of study | Period of study: September 1 – June 30. There are 2 week holidays between semesters in winter. Students write 4 term papers and 4 course projects for the period of study, thesis in the 8th semester and take the State Exam. |
Disciplines
Subject | Credits (ECTS) | Academic hours |
Production Organization and Enterprise Management | 2 | 87 |
Engineering Graphics | 3 | 120 |
Heat Transfer | 4 | 158 |
Electrical Engineering | 2 | 103 |
Production, Transport and Electricity Consumption | 4,5 | 182 |
Energy Planning and Finance for Energy Saving | 6 | 200 |
Energy Audit and Management | 5 | 170 |
Derivative Energy Sources | 3,5 | 150 |
Renewable Energy Resources | 4,5 | 170 |
Accounting, Control and Regulation of Energy Resources | 4 | 158 |
Graduate competencies | • ability to develop and implement energy efficient technologies, devices based on renewable resources and clean energy;
• ability to carry out systematic energy analysis (energy audit) of enterprises, technologic processes, equipment, assess their functional economic and energy efficiency; • ability to control and account fuel and energy resources consumption, monitor their effective use; • ability to develop standards and normative base of energy saving for all types of technical systems, machines, technological processes; • ability to analyze and assess development tendencies of energy efficient technologies and devices, choose effective criteria for energy efficient assessment; • ability to assess and justify energy economic efficiency, environmental safety of projects under development. Scientific skills: engineering and research work experience in the framework of productive and pre-graduation practices, course papers, thesis, participation in scientific conferences, publications.
IT skills: Windows, graphic packages, statistic packages. |
Continuation of study | II and III stages of higher education |
Master’s Course (II stage) | 1-33 80 01 Ecology (majors in):
• Urban Ecology; • Environmental Biotechnology; • Environmental Management; • Green Economy. |
Postgraduate Course (III stage) | Technical Science (majors in):
• 05.11.10 equipment and methods to measure ionizing radiation, x-ray equipment; • 05.11.13 equipment and methods to monitor the environment, substances, materials, and products; • 05.13.18 mathematic modeling, numerical methods, and sets of programs. |