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Area of study :13.04.01 Heat and power engineering
Major: Thermal and electric energy production
Duration: 2 years
Start: September 1
Admission: open
Language : Russian
Energy development in Russia is quickly becoming the most significant governmental priority, with the goal of obtaining economically justified efficiency in the use of fuel and energy resources at the current level of technological progress.
Students get skills that enable them to establish strategies for the location of main and auxiliary heat and power equipment, as well as highly efficient technological solutions, in order to increase reliability and improve environmental performance. Employees from the Kutateladze Institute of Thermophysics SB RAS are involved in the instruction.
Teachers and master's program students can work at the international training center in distributed heat power engineering, which was built in collaboration with the German company Viessmann. We are also researching a novel demanded sphere of heat power facilities digitalization.
Graduates of the educational program have the skills of design and production and technological activities at small power facilities, thermal power plants, boiler plants for various purposes, auxiliary heating equipment; they are in demand by leading design, commissioning, research and other industrial enterprises around the world
- Automatic control systems of thermal power plants
- Engineering experiment
- Comprehensive studies of thermal power plants
- Mathematical modeling
- Research and methodology seminar
- Non-traditional energy sources
- The problem and method of the thesis
- Issues of energy and resource conservation in heat power engineering, heat engineering and heat technology
- Design of thermal power plants
- Thermal power plants operation
- Systems and units of thermal power plants
- Modern issues of heat power engineering, heat engineering and heat technologies
- Theory of reliability of thermal power plants
- Fuel and burning
- Igor Anufriev
- Olesya Borush
- Oksana Grigoryeva
- Sergey Elistratov
- Yuriy Sharov
- Analysis of the operation of the gas turbine topped CHP based on the PT-60-130/13 turbine.
- Analysis of the operation of a combined geo-power plant with a binary cycle
- The effectiveness analysis of the systems for continuous monitoring and accounting of pollutants emissions on the example of Irkutsk CHP-10
- Analysis of the efficiency of using low-potential heat of thermal power plants
- Biogas power plant based on gas turbine power plant
- Investigation of dual-fuel combined-cycle gas technologies for subcritical and supercritical parameters
- Investigation of the parameters of a combined heat and power plant with a combined heat supply system in the temperature schedule zoning
- Investigation of the operation of solid waste incineration plants when working together with thermal power plants on organic fuel
- Investigation of the efficiency of electricity generation at a CCGT with an additional butane circuit
- Investigation of the efficiency of the production boiler house modernization
- Investigation of the efficiency of thermal power plants on solid waste.
- Investigation of the efficiency of thermal power plants with a gas network heater and freon thermal transformers
- Improving the efficiency of the level control systems of turbine equipment of thermal power plants with T-180/210 units
- Increasing the efficiency of heat exchange in power plants due to its intensification in the contact line
- Development of a variant of an autonomous power plant based on an internal combustion engine
- Development of an autonomous power plant based on the Chkalovets camp for children
- Development and analysis of possible options for the construction of Tutaevskaya CCGT
- Development of a cooling system for equipment with high heat dissipation
- Development of a trigeneration system based on gas-piston power plants
- Development of technology for the use of coal-water fuel based on brown coal in a gas turbine power plant
- Development of an experimental installation for the study of step-by-step combustion of fine coal-water suspensions in cyclone pre-heating
- Technical and economic analysis of options for the reconstruction of a 75 t/h boiler when burning bark-wood waste and coal in a fluidized bed
- APG utilization plant to improve the efficiency of oil collection and processing
- Electrochemical technology of coal dust combustion
- The effectiveness of the use of oil-free ignition technology using a plasma burner
- Admission starts on June 20
- Admission stops on July 10
- The documents are sent to the university in electronic form through the NSTU Enrolee Personal Account. When submitting an application for admission in electronic form, the documents attached to it are submitted (sent) to the NSTU admission committee in the form of their electronic images (paper documents converted into electronic form by scanning or photographing with the provision of machine-readable recognition of its details)