Gas and Steam Turbine Installations and Engines

Program description:

Area of studies:
Power Engineering
Branch of science:
Engineering, Technology and Engineering Sciences
Ural Power Engineering Institute
Degree awarded:
Master's degree
Intake Year:
Mode and duration of study:
Full-time: 2 years
Extramural: 2.4 years

The master's degree program "Gas turbine, steam turbine installations and engines" in the direction of 13.04.03 "Power engineering" has an engineering and technological orientation and includes three trajectories: "Steam turbine installations", "Gas turbine installations and engines", "Reciprocating internal combustion engines".

The field of professional activity of graduates who have mastered the master's degree program includes: design, construction, research, installation and operation of energy machines, aggregates, installations and their control systems aimed at creating competitive equipment, the basis of which work processes are based on various forms of energy conversion.The graduate will be able to carry out professional activities in design, design, production and operational organizations.

The objects of professional activity of graduates are: installations, engines and devices for the production, conversion and consumption of various forms of energy, including: gas turbine installations and engines; steam turbines; combined installations; heat exchangers, reciprocating internal combustion engines; superchargers; compressors; systems and devices for controlling the operation of power machines, installations, engines, apparatuses and complexes with various forms of energy conversion; auxiliary equipment that ensures the functioning of energy facilities.

A significant place in the framework of the master's degree program is devoted to acquaintance with the advanced domestic and international experience in the creation and operation of modern high-tech devices used in the power industry and power engineering.

The graduate of the Master's degree will know: the principles of work in local and global networks; the purpose of engineering analysis systems; the main functions of computer support systems for design and production; the composition and content of information support for CALS technologies; the purpose of engineering analysis systems; applications of finite element and finite volume methods in engineering analysis systems; the purpose of product data management technologies; computer technologies of visual modeling of business processes; methods of functional modeling of business processes.

Will possess: methodology of functional modeling; methods of finite element analysis of elements of gas turbine, steam turbine installations and engines; methods of automation of design processes of objects of professional activity; skills in modern software products that allow designing, modeling and managing the life cycle of power plants; techniques of automatic design using CAD; methods of visualization of experimental and calculated data; skills of working in modern software systems for modeling the work processes of power plants; methods of performing numerical calculations of the work processes of power plants and their analysis.

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