7-07-0712-02 “Heat Power Engineering and Technologies”

 

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.