Degree of higher education “Bachelor”
Introduction to the profession (part 1)
Electrical engineering and electronics
Basics of production, distribution and use of electric energy
Theory of electric and magnetic circuits
Ecology
General environmental practice
Chemistry
Chemistry of nature management
2 course
Use of non-traditional energy sources
Electrical networks and systems
Electrical engineering and power supply
Electrical engineering and basics of electronics
Basics of electrical engineering and electronics
Fundamentals of metrology and energy measurements
Applied mechanics
Theoretical foundations of electrical engineering
Technical thermodynamics
syllabus 141
syllabus 142
working program
Ecology
Ecological and economic foundations of nature management
Protected business
Earth Sciences
Environmental legislation and environmental law
Environmental chemistry
3 course
Automation of non-traditional energy systems
Electrical equipment of power plants
Application of solar energy with KP
Processes and elementary base of non-traditional energy systems
syllabus
working program
methodological instructions (Calculation of main pipelines)
guidelines (Solar batteries and collectors)
methodological guidelines (Calculation of wind energy)
methodical instructions (Calculation of heat inflows)
methodological guidelines for course design
Thermodynamics, heat transfer and thermal power plants
Physical foundations of hydropower
Chemical energy sources and hydrogen energy
Industrial practice
syllabus
working program
methodical guidelines for industrial practice
Environmental expertise and environmental monitoring
Modeling and forecasting of the state of the environment
Treatment plants and environmental protection in the oil and gas industry
Thermotechnical measurements and devices
Thermophysical properties of energy carriers in heat technology
4 course
Accumulation of energy
Biotechnological systems of energy production
Energy sources on Earth
Experimental methods of researching solar power systems
Use of sea and land energy
syllabus
working program
methodological instructions (Calculation of solar energy)
Fundamentals of designing renewable energy installations
Basics of sustainable development of non-traditional energy
Processes and devices of unconventional energy
Thermoeconomic analysis in unconventional energy
Thermoeconomic analysis in unconventional energy
Thermoeconomic analysis and optimization methods of energy systems
Pre-diploma practice
Technical means of thermal engineering experiment
Diploma design
methodological guidelines for diploma design (specialty 141)
Degree of higher education “Master”
Energy complexes in unconventional energy
Energy-saving technologies in energy
Mathematical and physical modeling of unconventional energy systems
Basics of sustainable development of society
Design, testing and operation of non-traditional energy installations with KP
Sustainable development of destinations: scientific and technical aspect
Physico-chemical problems of energy converters with KP
Geoinformation systems in ecology
Environmental design
Ecological foundations of water resources management
Experimental thermophysics
Innovative management and audit
Nanotechnologies in thermal energy
Sustainable development strategy
Modern technologies of environmental protection in energy
Management of environmental risks
Management of rational nature management and environmental risks
Research practice
Postgraduate studies
methodology of scientific research
Nanotechnologies in thermal energy
Nanotechnologies in thermal energy
Thermophysical properties of ozone-safe working bodies and coolants