يوليو 2025

Major: Hydraulic and Pneumatic Automatic Systems and Machinery Level: Master’s degree programme Duration of training: 2 years Mode of study: Full-time / onsite Language of study: Russian Description of the educational programme 1. Areas of professional knowledge Areas of professional knowledge of graduates: teaching, as well as science and technology containing a set of tools, techniques and methods aimed at creating competitive products of mechanical engineering and based on: the use of modern methods of design, calculation, mathematical, physical and computer modeling; the use of design and technological information and computer-aided design; creation of quality management systems in the context of specific conditions of production on the basis of international standards; conducting market research using optimal solutions for creation of products subject to quality, reliability and cost requirements, as well as to the production time, life safety and environmental soundness.  2. Objects of professional activity The objects of professional activity of graduates: machinery and equipment of various complexes and mechanical engineering industries, technological equipment; vacuum and compressor machines, hydraulic machines, hydro-drives and hydraulic and pneumatic control systems; technological equipment and means of mechanization and automation of technological processes of mechanical engineering; production processes, their development and development of new technologies; means of information, metrological, diagnostic and management support of technological systems employed to achieve the quality of products; normative and technical documentation, standardization and certification systems, methods and means of testing and quality control of engineering products; work in the sphere of education. 3. Types of professional activity: Industrial-technological; design and engineering; research and teaching; organizational and managerial. 4. Professional activities: production and technological activities: design of machines, drives, systems, technological processes with the use of automated systems of technological preparation of production of machines, drives, systems; development of production standards, technological standards for the consumption of materials, fuel and electricity, as well as the choice of equipment and tools; development of technical specifications for the design and manufacture of machines, drives, systems, non-standard equipment and technological equipment for machines, drives, systems; ensuring the manufacturability of products and manufacturing processes of mechanical engineering; assessment of economic efficiency of technological processes; research and analysis of the causes of defects in the design, manufacture, testing, operation, disposal of technical products and systems and development of proposals for its prevention and elimination; development of measures for the integrated use of raw materials, finding alternatives for scarce materials and finding ways to recycle production waste; selection of systems for ensuring environmental safety in the conduct of work; implementation of technical control and quality management in the design, manufacture, testing, operation, disposal of technical products and systems; taking into account set of international standards ISO 9000 in order to ensure a high level of quality; organizational and management activities: organization of work of the group of workers, decision-making in the context of meeting with opposition and different views, establishing the order work; taking into account the requirements of quality, reliability and cost, as well as deadlines, safety and environmental cleanliness in the search for optimal solutions in the course of creation of products; prevention of industrial injuries, occupational diseases, prevention of environmental violations; preparation of applications for inventions and industrial designs; assessment of the value and cost of intellectual property; organization in the units of works on improvement, modernization, unification of products and their elements, development of draft standards and certificates; organization of advanced training for of employees of units in the field of innovation; writing reviews and opinions on draft standards, rationalization proposals and inventions; organization of works on the implementation of supervision in the manufacture, installation, calibration, testing and commissioning of manufactured products and facilities; marketing and preparation of business plans for the production and implementation of promising and competitive products; adaptation of modern versions of quality management systems to specific production conditions on the basis of international standards; support of a single information space for enterprise planning and management at all stages of the product life cycle; development of plans and programs of organization of innovative activity at the enterprise; management of new product and technology development programs; the coordination of personnel for the integrated solutions of innovative problems-from idea to serial production; research and teaching activities: formulation, planning and conducting research of theoretical and applied nature on the subjects of the sphere of professional activity; development of models of physical processes; development of new methods of experimental research; analysis of research results and their formulating underlying principles; writing scientific and technical reports, reviews and publications on the results of research and development; fixation and protection of intellectual property; management of research results and commercialization of intellectual property rights; the use of modern psychological and pedagogical theories and methods in professional activities; design and development activities: development of perspective designs; taking into account environmental and energy-saving technologies in the context of optimization of design solutions; creation of applied calculation programs; expert analysis of design and technological developments; conducting patent research to ensure novelty and patentability of new design solutions and to determine the technical level of the designed products; development of conceptual, technical and working designs of complex products with the use of computer-aided design and advanced experience in the development of competitive products; carrying out technical calculations on projects, technical-economic and functional-cost analysis of the efficiency of the designed products and structures; development of methodological and regulatory documents, technical documentation, as well as proposals for the implementation of the developed projects and programs; evaluation of innovative potential of projects; assessment of innovative risks of commercialization of projects. 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Major: Intelligent Electric Power Systems and Networks Level: Master’s degree programme Duration of training: 2 years Mode of study: Full-time / onsite Language of study: Russian Description of the educational programme А Master’s degree student in the field of intelligent electric power systems and networks has the knowledge to ensure their effective and reliable operation in modern conditions. Power systems are the most complex technical systems created by man. They unite almost all electrical installations in Russia and a number of foreign countries participating in the production, transmission and distribution of electricity in a single operation mode. For making operational and managerial decisions in such a system, we need in-depth knowledge in the fields of normal and emergency modes, digital relay protection and automation devices, intelligent control, the ability to analyze the operating modes of electric power systems and to optimize them. Classes under the programme are held in the laboratories of relay protection and automation, physical and mathematical modelling of power systems, dispatch control, power systems with power converting equipment. In the process of training, students obtain knowledge focused on information technology, the introduction of intelligent control, the use of modern and promising systems of transmission and distribution of electricity. Special attention is paid to in-depth training in professional development courses taught by specialists from leading enterprises in the electric power industry, as well as to participation in the scientific activities of the Department together with its teachers and postgraduates. Field of future profession Master's degree training helps graduates to use modern digital devices and with their help to solve the problems of ensuring reliable operation of energy systems effectively. APPLY NOW

Major: Theory and Practice of Analytical Methods for Evaluating and Studying Heat-and-Mass Exchange Processes Level: Master’s degree programme Duration of training: 2 years Mode of study: Full-time / onsite Language of study: Russian Description of the educational programme The programme is designed to solve theoretical and applied problems in heat power engineering. Students examine methods of thermodynamic analysis of thermal schemes and devices. Graduates are able to construct energy balances and apply methods of optimization and numerical modelling. In addition, graduates gain knowledge in refrigeration and cryogenics. Heat power engineering is a universal specialty which is not tied to any specific type of company. Thermal power engineers are in demand everywhere: thermal power stations, thermal networks, boilers. At factories and plants, thermal power engineers service compressor and pumping stations, air separation units, gas and air supply systems, industrial air conditioning systems, and heating and water supply systems. At thermal power plants, thermal power engineers work as boiler and turbine operators, steam and gas plant operators, linemen, installers, and repairmen. In housing and communal services, thermal power engineers work in heat supply and management companies. In addition, no building or industrial facility can be designed without thermal power engineers: only thermal power engineers can design heating networks, thermal boiler houses, gas piston plants, and heating, ventilation, and gas supply systems. Main programme-specific classes: Low-temperature Heating Systems and Networks Heat Regenerator Systems Analytical Methods of Evaluating and Studying Heat-and-Mass Exchange Processes APPLY NOW

Major: Automated mechanical engineering technology Level: Bachelor’s degree programme Duration of training: 4 years Mode of study: Full-time / onsite Language of study: Russian Description of the educational programme The educational program 15.03.05 Design and Technological Support of Mechanical Engineering Productions take into account needs of the regional labor market, traditions and achievements of scientific and pedagogical school of the University in accordance with requirements of the Federal legislation. The program aim is the formation of cultural and professional competencies and focus on meeting the educational and professional needs of the individual, the development of personal qualities of students, training of qualified professionals with competitive skills for the engineering industry. The main strategic objective of the program is to providing a high level of training to students in accordance with the existing and projected needs of enterprises and institutions of the region, city; The program provides training in the field of Mechanical Engineering Technology, which is aimed at meeting needs of mechanical engineering enterprises in the region and fully meets the needs of the regional labor market. The objective of the program is to train new generation of students in the field of mechanical engineering production who: possess have all the necessary skills of using high-performance technological equipment, devices, tools, measuring instruments and other technological equipment, as well as computer equipment and information technologies; are ready to use modern methods for the design of technological processes and technological equipment; are ready to work in a competitive environment in the labor market of mechanical engineering workers in the conditions of modernization of products and mechanical engineering enterprises; are able to solve professional problems to achieve financial stability and strategic efficiency of the mechanical engineering enterprise, as well as ensure the efficiency of design, manufacture, maintenance, repair and disposal of an engineering product at different stages of its life cycle. The specific nature of the field lies in its focus on the conditions of modern computerized mechanical engineering production and building knowledge and skills in the following areas: properties and characteristics of structural and electrical materials, ability to choose and use materials for solving specific technical problems; methods of production of machine parts and components, normalization of their accuracy parameters, writing design and technological documentation; knowledge of different types of technological processes in mechanical engineering, technology of automated production, technological equipment, tools and metrological assurance, methods of building computerized engineering industries; theoretical foundations and design principles of technological processes of machine assembly and technological processes of manufacturing parts in mechanical engineering production, principles for selection of schemes of the location of the part in the machine in the course of the manufacturing process, identification and calculation of the dimensional relationships of technological systems and machines, allowance calculations and operational dimensions; design of new technological processes of production of parts and machine assembly using separate machines, automatic lines and automated sites; processes and operations of shaping, regularities of physical and mechanical process in shaping; the structure of technological equipment; methods of the system approach to the creation of technological equipment with microprocessor control for computer-aided mechanical engineering industries using methods of computer-aided design; modern approaches to automation of production processes in mechanical engineering and features of development of technological processes of manufacturing of mechanical engineering products in the context of automated production; world and domestic experience in automation of production processes, technical and information bases of automation, features of automated processes in mechanical processing, blank production and assembly industries; methodology of calculation and design of technological equipment for various purposes, its manufacture and operation; theoretical basis of design of mechanical engineering production, modern methods of design of the main and auxiliary systems, rules and regulations of labor protection and ecology, production safety measures; functions, properties and methods of selection of the cutting tool for cutting machines and complexes, geometrical parameters of the cutting tool, cutting tool materials; concepts of flexible automated production, flexible production systems, location and technical and economic indicators of GPS. APPLY NOW