مارس 2019

Major: Complex Usage of Water Resources Level: Master’s degree Duration of training: 2 years Degree certificate: Master’s degree Mode of study: Full time Language of study: Russian Programme manager: Vyacheslav Avdin, +7(351)267-95-17, avdinvv@susu.ru Description of the educational programme The aim of the program is to train highly qualified specialists in the field of energy efficiency and resource conservation, who possess sufficient skills to work for high-tech enterprises, as well as for continuing research in any part of the world. Program objectives: formation of competences in the field of energy and resource saving and environmental design; formation of knowledge and skills in the field of solving modern problems of energy and resource saving; teaching information retrieval both in regulatory documents and in scientific journals; teaching how to solve non-standard problems of energy and resource conservation, requiring the application of a scientific approach. The area of professional activity: design in the field of energy and resource conservation, research, environmental marketing, consulting, environmental-economic, environmental-legal, training activities. Objects of professional activity: processes and devices in chemical technology, petrochemistry and biotechnology; industrial plants and technological schemes, including automated control systems; automated research systems and computer-aided design systems; facilities for sewage treatment and gas emissions, waste treatment, utilization of heat and energy flows and secondary materials; methods and tools for assessing the state of the environment and protecting it from human impact; artificial intelligence systems in chemical technology, petrochemistry and biotechnology; multi-assortment production of chemical and related industries. Types of professional activity: production and technology; research, organizational and managerial. Program strengths: International internships during studies with the opportunity to participate in double degree programs (two degrees - SUSU and a foreign university). Participation in conferences on a national and international level with oral presentations on the topic of the master's thesis. Undergraduates study for free at the Lingua courses, which involve teaching both written and spoken common English. Specialists in this field of study are in demand both in design and control organizations, and in enterprises of the real sector of the economy (metallurgical, machine-building, oil and gas processing and transporting, pharmaceutical enterprises), as well as in scientific organizations. Mastering modern world research technologies. Undergraduates in the performance of dissertations actively use the equipment of world-class scientific and educational center Nanotechnology. Teaching is conducted in the second half of the day, which makes it possible to study full-time in the magistracy without separation from the main work. Future employers: Production enterprises and scientific organizations of various regions of Russia and the world, in particular: OAO Gazpromtrans, ROSATOM, OAO Lukoil, OAO Chelyabinsk Zinc Plant, OAO Energroprom – Chelyabinsky Elektrodny Zavod, OAO Mechel, OAO Mechel-Koks, OAO Chemk, Magnezit Group, ChelPipe, Chelyabinsk Tractor Plant – URALTRAC Limited, Rosprirodnadzor, Ministry of Economic Development of the Russian Federation, Ministry of Ecology of the Russian Federation, Chelyabinsk Center for Hydrometeorology and Environmental Monitoring; design, survey and research institutes: OOO YuzhuralPKB, OOO Eko-Proekt, Ecosolutions, OOO NII BTMET and etc. Partners: Major industrial partners: Magnitogorsk Iron & Steel Works, Mechel, OOO IT-Service, Materia Medica, OAO MMZ, OAO Fort Tehnologii, FGUP Zavod Plastmass, OAO Lafarge Cement, Ural Engineering Center, PAO Konar, OAO Vostochno-Sibirskiy kombinat stroitelynikh materialov, ZAO Metran group, The South Urals Chamber of Commerce and Industry, OOO Akva. Major scientific partners: Institutes under the Russian Academy of Sciences N. D. Zelinsky Institute of Organic Chemistry Russian Academy of Sciences, Institute of Petrochemistry and Catalysis, Sobolev Institute of Geology and Mineralogy, Institute of Solid State Chemistry UB RAS, Komi Science Center UB RAS Institute of Chemistry. Russian Universities Moscow Institute of Physics and Technology, Moscow State University, Dmitry Mendeleev University of Chemical Technology of Russia, ITMO University. Foreign Universities University of Central Florida (USA), Lappeenranta University of Technology (Finland), St. Andrews University (UK, Scotland), University College London (UK, England), University of Cyprus (Cyprus), University of Oviedo (Spain), University of Palermo (Italy). Special projects Undergraduates participate in research work carried commissioned by industrial enterprises or scientific foundations on the following topics: New nanostructured catalysts for resource-saving technologies. Development of methods for determining the composition of deposits and corrosion products of structural materials of petrochemical production. Determination of the effectiveness of the implementation of environmental measures to reduce the impact of polluted runoff from the watershed of rivers on the water quality of reservoirs. Testing of samples of powders of drugs and their preformed forms using the DSC method and the method of X-ray phase analysis. Development of technology and experimental installation of advanced water treatment to remove phenols and cyanides, without the use of chemical reagents.  

Major: Welding, Allied Processes and Technology Level: Master’s degree Duration of training: 2 years Degree certificate: Master’s degree Mode of study: Full time Language of study: Russian Programme manager: Mikhail Ivanov, 267-99-60, IvanovMA@susu.ru Description of the educational programme The program is focused on in-depth study and modeling of the processes of welding and surfacing by studying modern design methods, mathematical, physical and computer modeling of technological processes of welding and surfacing. Students are given a choice of topics for their theses from partner enterprises with a possibility of subsequent employment. Field of study Students gain advanced skills in the field of welding modeling and welded structures, programming of modern welding robots, as well as practice their skills using supercomputer, welding robot Fanuc, software packages KOMPAS, ANSYS, SYSWELD and RoboGuide.

APPLY NOW   Major: Optimization of  Fuel Utilization in Industrial Heat Power Engineering Level: Master’s degree Duration of training: 2 years – full time, 2,5 years – part time Degree certificate: Master’s degree Mode of study: Full time, part time Language of study: Russian/English Tuition fee for year 2022-2023: 179 000 rubles (per year) Programme manager: Konstantin Osintsev, +7(351)267-93-95, osintcevkv@susu.ru, site: https://open.susu.ru/ Description of the educational programme In the course of the program special attention is paid to theory and practical application of heat and mass transfer, recuperators, regenerators, systems and devices for transporting liquids and gases, heating, cooling, ventilation, air conditioning, equipment of thermal power plants, boiler units operating on all types of organic fuel, steam and gas turbines, as well as some of the applications of these systems and their features in various industrial enterprises. These systems are in high demand in ferrous and nonferrous metallurgy enterprises, mechanical engineering, chemical, oil and gas industries.   APPLY NOW

Major: Hydraulic Machines, Hydrodrives and Hydraulic and Pneumatic Control Systems Level: Bachelor’s degree Duration of training: 4 years Degree certificate: Bachelor’s degree Mode of study: Full time Language of study: Russian Programme manager: Evgeniy Spiridonov , tel +7(351)267-92-52, spiridonovek@susu.ru Description of the educational programme The field of professional knowledge: science and technology, containing a set of  tools, techniques, methods aimed at creating competitive products of mechanical engineering and based on the application of modern methods and means of design, calculation, mathematical, physical and computer modeling; organization and production, installation, commissioning, maintenance, operation, diagnostics and repair of hydraulic machines, hydropneumatic systems. Objects of professional activity: Hydraulic machines and hydropneumatic complexes; production processes, their development of new technologies; means of information, metrological, diagnostic and management support of technological systems to achieve the quality products; regulatory and technical documentation, standardization and certification systems; technological equipment and means of mechanization and automation of technological processes, vacuum and compressor machines, hydraulic machines, hydro-drives and hydraulic and pneumatic control systems; means of testing and quality control of machines and equipment. Types of professional activity: Industrial-technological; design and engineering; organizational and managerial; Research and development; Professional activities Research: the study of scientific and technical information, of domestic and foreign experience in the direction of research in the field of production of hydraulic machines and hydraulic and pneumatic control systems; mathematical modeling of processes, equipment and production facilities using standard and computer-aided design and research tools; conducting experiments using given methods, processing and analysis of the results; making technical measurements, writing descriptions of the conducted research, preparing data for scientific reviews and publications; writing scientific reports on the conducted research and implementation of research and development results in the field of mechanical engineering; organizing protection of intellectual property, classifying research and development results as a trade secret of the enterprise; Design and development: collection and analysis of initial data for designing engineering products and manufacturing technologies; calculation and design of parts and components of mechanical engineering structures in accordance with technical specifications and the use of standard design automation tools; development of  design and technical documentation, writing documentation for finalized projects; project monitoring and technical documentation in accordance with standards, specifications and other normative documents; preliminary feasibility study of design solutions; Production and technological activities: monitoring compliance with technological discipline in the process of manufacturing products; organization of workplaces, placement of technological equipment; organization of metrological assurance of technological processes, the use of standard methods of quality control of products; maintenance of technological equipment; participation in the work on fine-tuning and development of technological processes which later will be used in the preparation of new products; preparation of technical documentation on quality management of technological processes at production sites; monitoring compliance with environmental safety in the course of production; adjustment, calibration and pilot testing of technological equipment and software; installation, calibration, testing and commissioning of new product samples, components and parts of the products; checking of technical condition and residual life of technological equipment, organization of preventive inspections and maintenance; acceptance and development of input equipment; preparation of equipment operating instructions and test programs; preparation of applications for equipment and spare parts, preparation of technical documentation for its repair; Organizational and management activities: managing of a small group of workers; writing of technical documentation (schedules, instructions, estimates, plans, applications for materials and equipment) and reports using the established forms; analysis and evaluation of production and non-production costs in order to ensure the required quality of products, analysis of the results of the production units; preparation of initial data for selection and justification of scientific, technical and organizational decisions based on economic decisions; performing works on standardization, technical preparation for certification of technical means, systems, processes, equipment and materials; development of operational plans for primary production units; work planning and payroll fund planning; preparation of documentation for the purposes of creation of quality management system at the enterprise; organizational-planned calculations for the purposes of creation or reorganization of industrial sites.