CATALOGUE. of basic educational programs Bachelor s degree programme Master s degree programme Specialist s degree programme

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1 National research Tomsk Polytechnic University CATALOGUE of basic educational programs 2013 Bachelor s degree programme Master s degree programme Specialist s degree programme

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3 Contents tpu.ru CONTENTS Institute of Physics and Technology... 7 Bachelor s Degree Programme APPLIED MATHEMATICS AND INFORMATICS PHYSICS NUCLEAR PHYSICS AND TECHNOLOGIES TECHNICAL PHYSICS SPECIALIST S DEGREE PROGRAMME ELECTRONICS AND AUTOMATION OF NUCLEAR PLANTS CHEMICAL ENGINEERING OF MATERIALS IN MODERN POWER ENGINEERING Master s Degree Programme PHYSICS NUCLEAR PHYSICS AND TECHNOLOGIES APPLIED PHYSICS Institute of Natural Resources Bachelor s Degree Programme APPLIED GEOLOGY GEOLOGY MANAGEMENT LAND MANAGEMENT AND CADASTRAL REGISTER PETROLEUM ENGINEERING CHEMICAL ENGINEERING ENERGY-EFFICIENT AND RESOURCE-SAVING PROCESSES IN CHEMICAL ENGINEERING, PETROCHEMISTRY AND BIOENGINEERING ENVIRONMENTAL ENGINEERING AND WATER RESOURCES MANAGEMENT SPECIALIST S DEGREE PROGRAMME APPLIED GEOLOGY GEOLOGICAL EXPLORATION PROCESS Master s Degree Programme GEOLOGY ECOLOGY AND WILDLIFE MANAGEMENT MANAGEMENT PETROLEUM ENGINEERING CHEMICAL ENGINEERING ENERGY-EFFICIENT AND RESOURCE-SAVING PROCESSES IN CHEMICAL ENGINEERING, PETROCHEMISTRY AND BIOENGINEERING ENVIRONMENTAL ENGINEERING AND WATER RESOURCES MANAGEMENT Institute of Power Engineering Bachelor s Degree Programme HEAT AND POWER ENGINEERING AND HEAT ENGINEERING ELECTRIC POWER ENGINEERING AND ELECTRICAL ENGINEERING POWER MACHINERY ENGINEERING SPECIALIST S DEGREE PROGRAMME NUCLEAR POWER PLANTS: DESIGN, OPERATION AND ENGINEERING

4 Contents Master s Degree Programme PHYSICS HEAT AND POWER ENGINEERING AND HEAT ENGINEERING ELECTRIC POWER ENGINEERING AND ELECTRICAL ENGINEERING Institute of High Technology Physics Bachelor s Degree Programme MATERIALS SCIENCE AND TECHNOLOGY MECHANICAL ENGINEERING OPTICAL ENGINEERING CHEMICAL ENGINEERING BIOTECHNOLOGY HI-TECH PLASMA AND ENERGY EQUIPMENT PRODUCTION MACHINES AND EQUIPMENT Master s Degree Programme ELECTRIC POWER ENGINEERING AND ELECTRICAL ENGINEERING MATERIALS SCIENCE AND TECHNOLOGY MECHANICAL ENGINEERING OPTICAL ENGINEERING ELECTRONICS AND NANOELECTRONICS CHEMICAL ENGINEERING Institute of Cybernetics Bachelor s Degree Programme APPLIED MATHEMATICS AND INFORMATICS DESIGN MECHANICAL ENGINEERING DESIGN-ENGINEERING SUPPLY FOR MECHANICAL ENGINEERING CONTROL IN ENGINEERING WORKFLOW AND PRODUCTION AUTOMATION MECHATRONICS AND ROBOTICS STANDARDIZATION AND METROLOGY COMPUTER SCIENCE AND TECHNOLOGY INFORMATION SYSTEMS AND TECHNOLOGIES APPLIED INFORMATICS ARTS AND TREATMENT OF MATERIALS Master s Degree Programme APPLIED MATHEMATICS AND INFORMATICS MECHANICAL ENGINEERING DESIGN-ENGINEERING SUPPLY FOR MECHANICAL ENGINEERING CONTROL IN ENGINEERING STANDARDIZATION AND METROLOGY COMPUTER SCIENCE AND TECHNOLOGY INFORMATION SYSTEMS AND TECHNOLOGIES APPLIED INFORMATICS Institute of Non-Destructive Testing. Yurga Institute of Technology, TPU affiliate (Engineering and technology) Bachelor s Degree Programme MECHANICAL ENGINEERING

5 Contents tpu.ru INSTRUMENT MAKING BIOTECHNICAL SYSTEMS AND TECHNOLOGY ELECTRONICS AND NANOELECTRONICS QUALITY MANAGEMENT SAFETY IN TECHNOSPHERE Master s Degree Programme MECHANICAL ENGINEERING INSTRUMENT MAKING BIOTECHNICAL SYSTEMS AND TECHNOLOGY ELECTRONICS AND NANOELECTRONICS QUALITY MANAGEMENT SAFETY IN TECHNOSPHERE Institute of Humanities, Social Sciences and Technologies. Institute of International Education and Language Communication. Yurga Institute of Technology, TPU affiliate (HUMANITIES, SOCIAL SCIENCES) Bachelor s Degree Programme INSTITUTE OF HUMANITIES, SOCIAL SCIENCES AND TECHNOLOGIES ECONOMICS MANAGEMENT INNOVATION MANAGEMENT ADVERTISING AND PUBLIC RELATIONS FOREIGN AREA STUDIES HUMAN RESOURCE MANAGEMENT TOURISM PHYSICAL TRAINING YURGA INSTITUTE OF TECHNOLOGY ECONOMICS MANAGEMENT AGRICULTURAL ENGINEERING METAL ENGINEERING MECHANICAL ENGINEERING APPLIED INFORMATICS SAFETY IN TECHNOSPHERE SPECIALIST S DEGREE PROGRAMME INSTITUTE OF HUMANITIES, SOCIAL SCIENCES AND TECHNOLOGIES CUSTOMS AFFAIRS INSTITUTE OF INTERNATIONAL EDUCATION AND LANGUAGE COMMUNICATION TRANSLATION AND TRANSLATION STUDIES YURGA INSTITUTE OF TECHNOLOGY MINING ENGINEERING Master s Degree Programme INSTITUTE OF HUMANITIES, SOCIAL SCIENCES AND TECHNOLOGIES ECONOMICS MANAGEMENT TOURISM INNOVATION MANAGEMENT APPLIED INFORMATICS

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7 INSTITUTE OF PHYSICS AND TECHNOLOGY The institute of Physics and Technology trains highclass experts for areas of a traditional, nuclear and hydrogen power engineering, experimental and applied physics, new chemical, plasma and the beam of technologies, modern materials. Leading position in the world is held by such FTI scientific directions, as fundamental researches in the field of nuclear physics and physics of elementary particles; researches on generation of powerful pulse electron and ionic beams, the microwave - and braking radiations; creation of the equipment and technologies for sedimentation of the submicronic plasma coverings, the biocompatible coverings, the nanostructured coverings with set properties, fluoride technologies, researches in the field of hydrogen power engineering, the production technology of radiopharmaceuticals for medical diagnostics; methods of the neutron and activation analysis; technologies of a neutron transmutation alloying of semiconductor materials and some other. Educational process and researches are integrated into the international scientific space, are conducted in collaboration with the leading research organizations and the companies of the USA, China, South Korea, Singapore, Israel, the Czech Republic, France, Poland, India, Japan, Italy, Germany, Austria, Sweden and other countries. The FTI unique material base: the electronic synchrotron on power of 1,5 BEV research nuclear reactor cyclotron with adjustable ions energy the innovative educational centre created with financial support of the United States Department of Energy (DOE) and other modern analytical equipment of leading world companies. The system of physics and technology education created at the Institute, a close connection with the large research organizations, support of educational process by industrial enterprises allow to train professionals of the top skills forming scientific and technical elite of the country. Graduates are demanded by industrial enterprises, research organizations and institutions of higher and secondary vocational education. The level of the received training allows to compete successfully with graduates of foreign universities and to take perspective positions at the universities and companies not of only CIS countries, but also overseas countries. The faculty of the FTI: 339 research and academic employees, including 169 PhDs, 58 higher PhDs and 1 academician of RAS. 7

8 Institute of Physics and Technology Bachelor s Degree Programme Applied Mathematics and Informatics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: thorough understanding of information technologies and mathematical methods along with developed skills of applied problems solving. TRAINING OUTCOMES Competences gained: mastering formal system approaches to different problems analysis and solution; thorough understanding of advanced physics and mathematics, which allows doing both fundamental and applied research in different spheres: physics, psychology, economics and others. CAREER OPPORTUNITIES Employment areas: Eeconomics; mathematics; statistics; computer technologies; scientific research institutes; design institutes, postgraduate studies. Potential employers: State, local or municipal administrations; Finance, Economy, Analytical, Development and Marketing Departments of various enterprises and companies: private companies and associations, banks and insurance companies, investment foundations and pension scheme providers. 8

9 Institute of Physics and Technology tpu.ru COURSE STRUCTURE Core units Humanities and Social Sciences Foreign Language History Philosophy Economics Business Economics Law Studies Foreign Language for Specific Purposes Subject Area Units Informational technologies Programming Languages and Methods Operating Systems Databases Applied Mathematics Differential Equations Discrete Mathematics Probability Calculation and Mathematical Statistics Numerical Methods Optimization Techniques Games Theory and Operations Research Theory of Random Processes Creative Project Student Academic Research Work experience Industrial experience Bachelor's Graduation thesis General Mathematics and Natural Sciences Mathematical Analysis Algebra and Geometry Complex Analysis Functional Analysis Physics Informatics Computer Architecture Computer Graphics Computer hands-on course Methods of Functional Analysis in Engineering Evaluation Management Theory Logistics Multivariate Statistics Methods of Mathematical Physics Mathematical Simulation Mathematical Physics Equations Numerical Methods of Mathematical Physics Additional Chapters of Mathematical Physics Computer Models and Applications Web-Application Design Mathematical Models of Electrodynamics Project Planning and Results Processing Mathematical Simulation of Plasma and Plasma-like Systems Applied Oscillation Theory Applied Data Evaluation Data Evaluation Expert Systems Project Planning and Results Processing Web-Application Design Networking and System Administration Application Informatics Mathematical Physics Equations Mathematics in System Theory Applied Oscillation Theory CONTACT INFORMATION: Academic Curriculum Supervisor Dmitriy Yurievich Stepanov Tel. +7 (3822) , Subject Area Units (Specified Electives) Mathematical Methods Application to Engineering and Economics Problem Solving Financial Mathematics Statistical Modeling and Forecasting Cost Estimate Software Insurance and Actuarial Calculations Cost Accounting and Audit Experimental Design in Economics 9

10 Institute of Physics and Technology Physics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: thorough understanding of physics and mathematics, condensed matter physics; skills in designing physical models of materials response to external impact. TRAINING OUTCOMES Knowledge of: new trends in condensed matter physics development, new trends in hydrogen energy engineering, advanced equipment basic physics in professional activity, basic languages and software, advanced research equipment hardware components. Mastering: methods and computer technologies for physical experiment modeling, measurement and research methods, basic evaluation methods of scientific project technological and economical efficiency, basic rules and methods of advanced equipment operating in professional activity. CAREER OPPORTUNITIES Employment areas: enterprises using high technologies in power engineering, electronics, optics, plasma processing of metals; scientific research institutions; educational institutions; state and private scientific research institutions and engineering and manufacturing companies involved in physical problems solution. Potential employers: universities and colleges; scientific research institutions, laboratories; research and design companies, engineering and manufacturing companies. Career opportunities include: JSC Information Satellite Systems (Zheleznogorsk, Krasnoyarsk Krai); Balakovo Nuclear Power Plant (Balakovo, Saratov Oblast); JSC «Katod» (Novosibirsk); Russian Federal Nuclear Center, All-Russian Research Institute of Experimental Physics (Sarov, Nizhny Novgorod Oblast); Research and Production Center «Polyus» (Tomsk); Federal Research Institute of Semiconductor Devices (Tomsk); Institute of Thermophysics SB SAR (Novosibirsk); Institute of High Currents Electronics SB SAR (Tomsk); Institute for High Energy Physics (Protvino, Moscow Oblast); Russian Federal Nuclear Center, All-Russian Research Institute of Technical Physics (Snezhinsk, Chelyabinsk Oblast); Scientific laboratories of Institute of High Technology Physics and Institute of Physics and Technology, TPU (Tomsk); Post-graduate studies in TPU (Tomsk). 10

11 Institute of Physics and Technology tpu.ru COURSE STRUCTURE Core units Humanities and Social Sciences Foreign Language Economics Russian History Law Studies Psychology and Pedagogy Russian Language Stylistics and Speech Standards Philosophy Physical Training General Mathematics and Natural Sciences Mathematics Informatics (Software Engineering, Computational Physics, Numerical Methods, Mathematical Simulation) Chemistry Environmental Science Subject Area Units General Physics (Mechanics, Thermodynamics, Electricity and Magnetism, Optics, Atom and Atomic Phenomena Physics, Physics of Atomic Nucleus and Particles, General Practical Physics) Theoretical Physics Methods of Mathematical Physics Foreign Language for Specific Purposes Solid Surface and Thin Films Analysis Student Academic Research Electronics of Physical Units Introduction to Hydrogen Energetics Experimental Research Methods in Condensed Matter Principles of Plasma Physics Optional courses Physical Training Political Science Sociology Cultural Studies Military Training Subject Area Units (Specified Electives) Condensed State Physic Radiation-Substance and Plasma-Substance Interaction Principles of Plasma Physics Introduction to Hydrogen Energetics Experimental Research Methods in Condensed Matter Basic Physics of Nanomaterials CONTACT INFORMATION: Academic Curriculum Supervisor Andrei Markovich Lider, PhD, Associate Professor, Head of Department of General Physics, Institute of Physics and Technology, TPU 2, Lenin Prospect, Tomsk, Russia, Tel. +7 (38-22)

12 Institute of Physics and Technology Nuclear Physics and Technologies Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: students are trained to get involved in scientific research and creative innovative activities in nuclear physics and technology; to generate new ideas; to apply mathematical, physical and other specialized knowledge to their research tasks; students are trained to get involved in engineering and manufacturing activities in interdisciplinary areas connected with fundamental physics and nuclear fuel cycle technologies. TRAINING OUTCOMES Competences gained: readiness to use basic natural science laws in professional activities, to use mathematical analysis and simulation methods in theoretical and experimental research; readiness to assess nuclear and radiation safety; readiness to operate advanced physical facilities and instruments; to fix, adjust, handle and test equipment and software; to assemble, adjust, test and put into operation engineering samples of instruments, facilities, units, systems and components; readiness to do physical experiments according to specified procedure; to apply nuclear power, plasma, laser, super-high frequency and high-pulse facilities, electron, neutron and proton beams. CAREER OPPORTUNITIES Employment areas: nuclear power facilities design and operation; industrial facilities safety and physical security; medical physics; human and environmental radiological safety; plasma technologies. Potential employers: Nuclear Energy State Corporation «Rosatom» enterprises; The Russian Federal Space Agency «Roscosmos»; scientific research institutes. Career opportunities include: researcher; engineer; production manager. 12

13 Institute of Physics and Technology tpu.ru COURSE STRUCTURE Core units Mathematics Chemistry Physics Informatics Manufacturing Science in Nuclear Fuel Cycle Technical Physics Thermodynamics and Heat Transfer Atomic Physics Introduction to Nuclear Physics Materials Science Mathematical Physics Equations Subject Area Units (Specified Electives) Safety and Non-Proliferation of Nuclear Materials Health Physics of Nuclear Facilities Physicochemical Analysis of Nuclear Materials Methods and Procedures of Nuclear Material Accounting Safety Culture Nuclear Reactors and Facilities Nuclear Power Plant Materials Power Equipment for Nuclear Power Facilities Theoretical Physics of Nuclear Reactors Thermal Processes in Nuclear Power Plants Human and Environmental Radiological Safety Health Physics Radiation Control for Power Plant Staff and Public Health Spectrometric Measurements in Radioecology Biological Basics of Radiation Safety Nuclear and Elementary Particle Physics Empirical Research Methods in Nuclear Physics Selected Chapters of Physics Accelerator Physics Radiation-Substance Interaction Physics of Kinetic Phenomena Kinetics of Physicochemical Phenomena and Processes Uranium Isotope Separation Plasma Engineering and Technology Ion Exchange Technologies CONTACT INFORMATION: Academic Curriculum Supervisor Lyudmila Ivanovna Dorofeyeva PhD, Associate Professor, Department of Applied Physics Engineering, Institute of Physics and Technology, TPU Tel. +7 (3822) , 13

14 Institute of Physics and Technology Technical Physics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: training for professional advanced materials design for various industries; possibility for doing research in hydrogen energetics; mastering research methods in fundamental physical patterns for advanced materials and substances development; possibility for material features and structure modification by radioactive-plasma technology. TRAINING OUTCOMES Competences gained: ability to successfully do Master s degree in a wide range of scientific and technical fields; ability to quickly adapt to changing working environment; willingness for professional advancement, selffulfillment and career growth; teamwork skills; ability and willingness to assimilate and use advanced technology. CAREER OPPORTUNITIES Employment areas: research and modeling of physical phenomena and patterns occurring during charged particle beam substance and plasma substance interaction; design, development, implementation and operation of various equipment for plasma-substance and charged particle beam-substance interaction; design, development and operation of various technologies of plasma-substance and charged particle beam-substance interaction. Potential employers: scientific research institutions, research and design companies, engineering and manufacturing companies in the sphere of microelectronics, mechanical engineering, power electronics and electrical engineering, aeronautics and space industry, atomic power and hydrogen energetics. Career opportunities include: laboratory or department manager/ officer; plasma technology adviser. 14

15 Institute of Physics and Technology tpu.ru COURSE STRUCTURE Core units History Philosophy Business Economics Foreign Language for Specific Purposes Mathematics Informatics Chemistry Environmental Science Physics Mathematical Simulation Atomic Physics Molecular Physics and Heat and Mass Transfer Physics of Atomic Nucleus and Particles Solid State Physics Descriptive Geometry and Engineering Graphics Metrology, Standardization and Certification Electronics and Circuit engineering Mathematical Physics Basic Physics of Materials Science Theoretical Physics Mechanics Strength of Materials Electrical Engineering Theory Vacuum Equipment of Plasma and Acceleration Systems Subject Area Units (Specified Electives) Beam and Plasma Technology Charged Particle and Plasma Source Accelerators Radiation-Substance and Plasma-Substance Interaction Principles of gas discharge physics Introduction to Hydrogen Energetics Beam and Plasma Surface Modification Surface Physics and Thin Films CONTACT INFORMATION: Academic Curriculum Supervisor Galina Alexeyevna Bleykher D.Sc., Associate Professor of Department of Hydrogen Energy and Plasma Engineering, Institute of Physics and Technology, TPU Tel. +7 (3822)

16 Institute of Physics and Technology Specialist s Degree Programme Electronics and Automation of Nuclear Plants Specialist Duration: 5 years ACADEMIC CURRICULUM OUTLINE Programme features: students are trained to be physical engineers able to do research, design, develop and operate informationmeasuring systems, computer-aided manufacturing, automated research systems, computer-aided design and automated control systems. Not only systems but also their components are designed. students are provided with hands-on experience in valid scientific and technological projects development aimed at developing and implementing computer-aided manufacturing and automated research systems in the framework of Federal Target Program and contracts with enterprises and research institutes. Facilities Laboratory of processes simulation and control systems for nuclear fuel cycle technological processes development; Laboratory of automated research systems development; Laboratory of «Electronic and Automated Technological Processes Design», where internship and apprenticeship for such jobs as Instrumentation and Automated Control Systems Mechanic and Electrical Measuring Instrument Adjuster/ Calibrator are held. TRAINING OUTCOMES Competences gained: Automation Systems and Elements of Physical Plants: ability to apply the knowledge about nuclear power plant (NPP) processes in understanding automated control systems aims and objectives; knowledge of NPP management general structure to understand your personal function; readiness to do managerial work in small teams; skills in accident prevention at nuclear industry and power engineering enterprises; ability to apply knowledge in electronics and automation in advanced automated control systems technical means design. Automation Systems of Nuclear Fuel Cycle Manufacturing Processes: ability to apply the knowledge of NPP technological processes in understanding computer-aided manufacturing aims and objectives; ability to apply theoretical and practical knowledge (mathematical, informational, algorithmic and technical) of computer-aided manufacturing in servicing it; knowledge of nuclear fuel cycle management general structure to understand your personal function; readiness to do managerial work in small teams; ability to apply knowledge in electronics and automation in advanced automated control systems technical means design; ability to apply the knowledge of nuclear fuel cycle technological processes and equipment in their mathematical descriptions development to do computer-aided manufacturing research and design. CAREER OPPORTUNITIES Potential employers: Siberian Group of Chemical Enterprises (Seversk, Tomsk Oblast); Mining and Chemical Combine (Zheleznogorsk, Krasnoyarsk Krai); Russian Federal Nuclear Center, All- Russian Research Institute of Technical Physics (Snezhinsk, Chelyabinsk Oblast); Russian Federal Nuclear Center, All- Russian Research Institute of Experimental Physics (Sarov, Nizhny Novgorod Oblast); FSUE «Elektrokhimpribor» Combine (Lesnoy, Sverdlovsk Oblast); The Research Institute of Atomic Reactors (Dimitrovgrad, Ulyanovsk Oblast ); The Institute for High Energy Physics (Protvino, Moscow Oblast); JSC «Novosibirsk Chemical Concentrates Plant» (Novosibirsk); JSC «Atomtechenergo», Moscow affiliate (Moscow); Balakovo Nuclear Power Station (Balakovo, Saratov Oblast); Beloyarsk Nuclear Power Station (Zarechny, Sverdlovsk Oblast): Bilibino Nuclear Power Plant (Bilibino, Chukotka Autonomous Okrug); Kalinin Nuclear Power Station (Udomlya, Tver Oblast) Kola Nuclear Power Plant (Murmansk Oblast); Leningrad Nuclear Power Plant (Sosnovy Bor, Leningrad Oblast); Smolensk Nuclear Power Plant (Desnogorsk, Smolensk 16

17 Institute of Physics and Technology tpu.ru Oblast); Baltic (Kaliningrad) Nuclear Power Plant (Neman, Kaliningrad Oblast); The Joint Institute for Nuclear Research (Dubna, Moscow Oblast); JSC ENERGOMASH Business Group, «UralElectroTyazhMash» (Ekaterinburg); LLC Scientific Production Association Saint-Petersburg Electrotechnical Company (Saint-Petersburg); LLC Sientific and Manufacturing Enterprise Tomsk Electronic Company (Tomsk);Nuclear Physics Institute, AS Czech Republic. Graduation thesis areas: 1. Mathematical simulation of technological processes for these processes research and application in control algorithms. 2. Development of single technological process and production control algorithms. 3. Development of special software to provide technological variables measurement along with processes and production management assisted by microprocessor controllers and computer systems. 4. Development of actuator/sensor technical communications with computer controlled information complexes. COURSE STRUCTURE Core units Foreign Language History Philosophy Economics Law Studies Business Economics Foreign Language for Specific Purposes Mathematics Discrete Mathematics Mathematical Simulation Physics Informatics Environmental Science Theory of Nuclear Plant Structure Theoretical Physics Atomic Physics Nuclear Physics. Nuclear Plants Nuclear Reactors Probability Calculation and Mathematical Statistics Chemistry Information Technologies in Complex Systems Design Graph Theory in Complex Systems Design Subject Area Units Descriptive Geometry and Engineering Graphics Mechanics Basic Safety Electrical Engineering and Electronics Fundamentals of Electric Circuits Microprocessor-Based Systems Electrical Materials Science Metrology and Measurement Analysis Nuclear Plants Automated Systems Digital Control Systems Electric Elements of Automatic Control Systems Computer-Aided Design Nuclear Plants Operation Optimization in Control Engineering Remote Control Adaptive Control Systems Processes and Devices of Nuclear Power Plants as Technological Subjects of Control Principles of Nuclear Plants Safety Provision Automatic Control Theory Automation Facilities and Control Devices in Chemical Industry Subject Area Units (Specified Electives) Automation Systems and Elements of Physical Plants Modern Electrophysical Installations Automation Systems of Thermonuclear Facility Experiments Nuclear Power Plant Systems Testing Methods of Technological Variables of Nuclear Power Installations Automation Systems of Nuclear Fuel Cycle Manufacturing Processes Chemical Engineering of Nuclear Fuel Specialist Course 76 Control Systems for Nuclear Fuel Cycle Technological Processes Control Methods of Technological Variables of Nuclear Fuel Cycle CONTACT INFORMATION: Academic Curriculum Supervisor Sergei Nikiloayevich Liventsov D.Sc., Professor, Head of Department of Electronics and Automation of Nuclear Plants, Institute of Physics and Technology, TPU Tel. +7 (3822)

18 Institute of Physics and Technology Chemical Engineering of Materials in Modern Power Engineering Engineer Duration: 5,5 years ACADEMIC CURRICULUM OUTLINE Programme features: The study in this programme essentially differs from classical engineering education. The difference lies in nuclear technology peculiarities: research intensity of nuclear science knowledge, competences, technologies and education; combination of mathematics, science and engineering study, training workshop increased work scope and complexity; direct links with military industries and national security; high technological/ safety culture requirements; increased requirement to general culture and high ethical standards; senior students active research activity; longer graduation thesis design period. All this facilitates in training an engineer-researcher able to set tasks, find solutions, analyze achievements and implement outcomes. Facilities: Department of Rare, Scattered and Radioactive Element Technology has enough facilities (classrooms, lecture halls and laboratories) to train highly skilled engineers. There are four special-purpose laboratories: laboratory of rare and trace element chemistry and technology; laboratory of rare, trace and radioactive element physicochemical analysis; laboratory of chemical technology processes and equipment; laboratory of radioactive safety and radiochemistry. The students have a unique possibility to study and do their research in current industries: Sublimation Plant within Siberian Group of Chemical Enterprises, Rosatom Nuclear Energy State Corporation enterprises, TPU scientific research institutes. On the plant floors students study machinery and equipment operational characteristics, secure techniques of process procedure running. The university workshops are run by leading plant laboratory experts and manufacturing engineers. TRAINING OUTCOMES Competences gained: The Programme graduates are ready to do the following professional tasks: In engineering and manufacturing: to do operational procedures in accordance with manufacturing standard requirements; to organize and exercise acceptance control of raw and other materials used in advanced power engineering materials technology, acceptance control of isotopic pure substances and their compounds; to provide effective use of equipment, raw and secondary materials in operational procedures. In scientific research: to design research plans, programmes and methods of material and operational procedures in the framework of their professional activity; to do experiments in advanced power engineering materials technology; to develop theoretical models to forecast advanced power engineering material features. In administration and management: to manage the team work under current production and to provide continuous operational procedures; to provide technical assurance in advanced power engineering material production; to develop raw material and power resource conservation measures. In project development to develop new process schemes, to calculate operational parameters, to assess and select equipment; to analyze and evaluate process scheme alternatives and its components and equipment; to develop baseline data for new operational procedure and equipment design, to provide designer supervision over the designing process. CAREER OPPORTUNITIES Potential employers: JSC PA Electrochemical Plant (Zelenogorsk, Krasnoyarsk Krai); Mining and Chemical Combine (Zheleznogorsk, Krasnoyarsk Krai); JSC «Novosibirsk Chemical Concentrates Plant» (Novosibirsk);!Chemical and Metallurgical Plant» (Krasnoyarsk) JSC «Chepetsk Mechanical Plant» (Glazov, Udmurt Republic) The Joint Institute for Nuclear Research (Dubna, Moscow Oblast); The Institute for High Energy Physics (Protvino, Moscow Oblast); B. P. Konstantinov Petersburg Nuclear Physics Institute RAS (Gatchina, Leningrad Oblast); 18

19 Institute of Physics and Technology tpu.ru Graduation thesis areas: Graduation theses are aimed at technological advancement in: gold-mining industry; uranium production; nonferrous industry; power production materials; current manufacturing waste recycling for commodities production. COURSE STRUCTURE Core units Foreign Language History Philosophy Economics Law Studies Business Economics Marketing Mathematics Linear Algebra and Analytic Geometry Differential Calculus Informatics Physics Organic Chemistry General and Inorganic Chemistry Environmental Science Surface Phenomena and Dispersion Media Analytical Chemistry Physical Chemistry Applied Chemical Thermodynamics Chemical Kinetics of Heterogeneous Processes Uranium-Thorium-Plutonium Chemistry Basics of Nuclear Physics and Radiation Control Nuclear Physics Radiation Control and Radiological Safety Physicochemical Analysis Descriptive Geometry and Engineering Graphics General Applied Chemistry Mechanics Electrical Engineering and Industrial Electronics Metrology, Standardization and Certification Processes and Devices of Industrial Chemistry Materials Science Chemical Reactors Radiochemistry Basic Safety Management Simulated Chemical-Engineering Processes Work placement opportunities: gold-mining and gold reserve storage and control enterprises; nuclear weapons complex enterprises providing national security; Russia nuclear power plants; copper, nickel and other nonferrous metals producing enterprises; Siberian Group of Chemical Enterprises (Seversk, Tomsk Oblast); JSC PA Electrochemical Plant (Zelenogorsk, Krasnoyarsk Krai). Methods of Analytical Control in Advanced Power Engineering Materials Production Economics in Nuclear Industry Control Systems for Chemical-Engineering Processes Advanced Power Engineering Materials Technology Natural Uranium Technology Rare Earth Elements Technology Term Project in Special Technology Nuclear Energy Legislation Processing Equipment for Rare Earth Elements Nuclear Fuel Technology Spent Nuclear Fuel Radiochemical Reprocessing Subject Area Units (Specified Electives) Chemical Engineering of Materials in Modern Power Engineering Foreign Language for Specific Purposes Mineralogy and Geochemistry Basics of Extraction and Ion Exchange Rare Earth Elements Chemistry Trace Elements Chemistry Student Academic Research Industrial Health Introduction to nuclear Reactor Theory Pure Substance Formation Techniques Electrochemical Production Laboratory Course in Hydrometallurgical Technology Laboratory Course in Gas Metallurgical Technology Precious Metals Technology in Nuclear Industry Design Basis of Chemical Production Running and Repair of Process Equipment CONTACT INFORMATION: Academic Curriculum Supervisor Alexandr Nikolayevich Diachenko D.Sc., Head of Department of Rare, Scattered and Radioactive Element Technology, Institute of Physics and Technology, TPU Tel. +7 (3822) , portal.tpu.ru/departments/kafedra/htre 19

20 Institute of Physics and Technology Master s Degree Programme Physics Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: 1 training of highly skilled professionals knowledgeable about state-of-the-art experimental methods of material properties study and capable of physical processes computer modelling; 2 training of highly skilled professionals capable of operation, routine maintenance, condition diagnostics and repairs of natural gas liquefaction enterprises equipment. Facilities: multimedia-aided lecture halls; special-purpose computer rooms provided with software packages (National Instruments LabView, Mathworks MatLab, MathSoft MathCad, Autodesk Inventor Professional, etc.); all computers have access to university corporate network as well as access to Internet; innovative research-and-education Centre of Hydrogen Energy Technology, Renewable Sources of Energy and Energy Efficiency; innovative research-and-education Centre of Nuclear Technology and Non-Proliferation of Nuclear Materials; centre for material properties measurement; research unit nuclear reactor laboratory (unique research-and-education nuclear reactor beyond the Urals); international research-and-education laboratories of radiation monitoring and diagnostics, nuclear technology and safety, hydrogen energy and plasma technology, Foton laboratory as well as laboratories of mathematical physics and polarisation phenomena in nuclear processes; laboratories of heat and mass exchange, thermophysical properties of materials, engineering thermodynamics, heat transfer, heat supply; laboratories of strategic partners such as Cancer Research Centre of Siberian Branch of Russian Academy of Medical Sciences, Institute of High Current Electronics of Siberian Branch of Russian Academy of Sciences, etc. TRAINING OUTCOMES Key competences gained: 1 knowledge of methods of material properties analysis as well as skills to apply the given methods for solving tasks within professional activity; 2 skills to develop designs of specific gas liquefaction plants and units; knowledge of gas liquefaction process modelling methods as well as skills to apply the given methods for solving tasks within professional activity. 20

21 Institute of Physics and Technology tpu.ru CAREER OPPORTUNITIES Scope of activity: scientific-and-research, innovative, organisational and managerial, teaching activity in relation to physical phenomena, processes and structures observed in nature. Employment areas: state-owned and privately owned research, design-andproduction establishments dealing with solving tasks of physics; institutions of higher, secondary vocational and secondary general education. Career opportunities include: research fellow, engineer, instructor, head of research department, head of design department. Job placement opportunities: gas liquefaction plants and units of Gazprom OJSC, M.F. Reshetnyov Information Satellite Systems OJSC (Zheleznogorsk, Russia), Biysk Protective Coat and Engineering Protective Systems Plant (Biysk, Russia), Siberian Chemical Plant OJSC (Seversk, Russia), Energoatom Concern OJSC, etc. COURSE STRUCTURE Subject Area Units (Specified Electives) Condensed Matter Physics (Institute of Physics and Technology) Condensed Matter Physics (double degree programme in partnership with Al-Farabi Kazakh National University, Institute of Physics and Technology) Physics and technology of low temperatures (Institute of Power Engineering) CONTACT INFORMATION: Academic Curriculum Supervisor Yuriy Y. Kryuchkov, professor of Department of General Physics of Institute of Physics and Technology; office 205 of TPU building 3, 43 Lenina Street, Tomsk, Russia; Tel.: +7 (3822) ; Institute of Physics and Technology Admission Board executive secretary Mikhail S. Kuznetsov, teaching assistant at Department of Nuclear Power Plants of Institute of Physics and Technology; office 248a of TPU building 10, 2 Lenina Street, Tomsk, Russia; Tel.: +7 (3822) ; е-mail: [email protected]. Institute of Power Engineering Admission Board executive secretary Sergey A. Shevelyov, senior instructor of Department of Nuclear and Thermal Power Plants of Institute of Power Engineering; office 234 of TPU building 4, 30a Lenina Street, Tomsk, Russia; Tel.: +7(3822) е-mail: [email protected] 21

22 Institute of Physics and Technology Nuclear Physics and Technologies Degree/special rank awarded: Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of highly skilled professionals demanded by nuclear fuel cycle enterprises, power industry, mechanical engineering and other science-intensive industries. Facilities: multimedia-aided lecture halls; special-purpose practical study computer rooms provided with software packages (National Instruments LabView, Mathworks MatLab, MathSoft MathCad, Autodesk Inventor Professional, etc.); all computers have access to university corporate network as well as access to Internet; innovative research-and-education centre of hydrogen energy technology, renewable sources of energy and energy efficiency; innovative research-and-education centre of nuclear technology and non-proliferation of nuclear materials; centre for material properties measurement; research unit nuclear reactor laboratory (unique research-and-education nuclear reactor beyond the Urals); international research-and-education laboratories of radiation monitoring and diagnostics, nuclear technology and safety, hydrogen energy and plasma technology, Foton laboratory as well as laboratories of mathematical physics and polarisation phenomena in nuclear processes; laboratories of heat and mass exchange, thermophysical properties of materials, engineering thermodynamics, hear transfer, heat supply; laboratories of strategic partners such as Cancer Research Centre of Siberian Branch of Russian Academy of Medical Sciences, Institute of High Current Electronics of Siberian Branch of Russian Academy of Sciences, etc. TRAINING OUTCOMES Key competences gained: profound knowledge of science, mathematics, engineering in the field of nuclear physics and technology as well as applied physics and skills to incorporate the given knowledge to solve engineering tasks within professional activity. CAREER OPPORTUNITIES Scope of activity: research, design, examination, engineering-andproduction, organisational and managerial activity in the field of nuclear physics and technology. Employment areas: researches and studies aimed at information 22

23 Institute of Physics and Technology tpu.ru logging and processing, theory formulating, creating and exploiting units and systems in the field of nuclear physics, particle physics, plasma physics, condensed matter physics, isotopic and molecular mixture separation physics, high-speed processes physics; medical radiation physics, radiation material science; study of non-equilibrium physical processes, propagation and interaction of radiation with animate and inanimate objects; maintenance of nuclear power plants, provision of nuclear and radiation safety, nuclear materials safety, physical protection of nuclear sites, design of nuclear power plant computer-aided control and monitoring systems. Career opportunities include: research fellow, engineer, instructor, head of research division, head of design division. Job placement opportunities: Rosatom Nuclear Energy State Corporation, Tomskneft VNK OJSC, Oil Company Rosneft OJSC (Strezhevoy, Russia), special-purpose radiation safety plant (Moscow/Novosibirsk, Russia); Siberian Chemical Plant OJSC (Seversk, Russia), Mining Chemical Combine (Zheleznogorsk, Russia), etc. Master s programme graduates may pursue a PhD programme. COURSE STRUCTURE Subject Area Units (Specified Electives) Medical Physics Nuclear Power Plant Control Nuclear Engineering Control and Regulation Kinetic Phenomena Physics Institute of Physics and Technology Admission Board executive secretary: Mikhail S. Kuznetsov, teaching assistant at Department of Nuclear Power Plants of Institute of Physics and Technology; office 248a of TPU building 10, 2 Lenina Street, Tomsk, Russia; Tel.: +7(3822) ; е-mail: [email protected] CONTACT INFORMATION: Academic Curriculum Supervisor Dmitry G. Demyanyuk education deputy Vice-Rector, Director of Institute of Physics and Technology; office 233 of TPU building 10, 2 Lenina Street, Tomsk, Russia Tel.: +7 (3822) е-mail: [email protected] 23

24 Institute of Physics and Technology Applied Physics Degree/special rank awarded: Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of highly skilled professionals able to be with enterprises producing stateof-the-art high-tech output which requires application of plasma and radiation technologies; training of up-and-coming scientists able to conduct researches, primarily in the field of plasma and charged-particle beams on matter. Facilities: multimedia-aided lecture halls; special-purpose computer rooms provided with license software packages (National Instruments LabView, Mathworks MatLab, MathSoft MathCad, Autodesk Inventor Professional, etc.); all computers have access to university corporate network as well as access to Internet; innovative research-and-education Centre of Hydrogen Energy Technology, Renewable Sources of Energy and Energy Efficiency; innovative research-and-education Centre of Nuclear Technology and Non- Proliferation of Nuclear Materials; centre for material properties measurement; research unit nuclear reactor laboratory (unique research-and-education nuclear reactor beyond the Urals); international research-andeducation laboratories of radiation monitoring and diagnostics, nuclear technology and safety, hydrogen energy and plasma technology, Foton laboratory as well as laboratories of mathematical physics and polarisation phenomena in nuclear processes; laboratories of heat and mass exchange, thermophysical properties of materials, engineering thermodynamics, heat transfer, heat supply;laboratories of strategic partners such as Cancer Research Centre of Siberian Branch of Russian Academy of Medical Sciences, Institute of High Current Electronics of Siberian Branch of Russian Academy of Sciences, etc. TRAINING OUTCOMES Key competences gained: profound knowledge of science, mathematics, engineering in the field of applied physics and skills to apply the given knowledge to solve tasks within professional activity. CAREER OPPORTUNITIES Scope of activity: research, engineering-and-production, design-andengineering, organisational and managerial activity in relation to design, production and exploitation of various plasma and charged-particle beam sources as well as to development of solid body surface modification technologies based on plasma and charged-particle beam technologies. Employment areas: state-owned and privately owned research, designand-production establishments dealing with plasma and charged-particle beam technologies; institutions of higher, secondary vocational and secondary general education. Career opportunities include: research fellow, engineer, production planner, instructor, head of research division, head of design division. 24

25 Institute of Physics and Technology tpu.ru Job placement opportunities: M.F. Reshetnyov Information Satellite Systems OJSC (Zheleznogorsk, Russia), Institute of High Current Electronics (Tomsk, Russia), Siberian Chemical Plant OJSC (Seversk, Russia), Biysk Protective Coat and Engineering Protective Systems Plant (Biysk, Russia), National Nuclear Center of the Republic of Kazakhstan. Master s programme graduates may pursue a PhD programme. COURSE STRUCTURE Subject Area Units (Specified Electives) Beam and Plasma Technologies CONTACT INFORMATION: Academic Curriculum Supervisor Valery P. Krivobokov head of Department of Hydrogen Energy and Plasma Engineering of Institute of Physics and Technology; office 124 of TPU building 19, 4a Usova Street, Tomsk, Russia; Tel.: +7 (3822) е-mail: [email protected] Institute of Physics and Technology Admission Board executive secretary Mikhail S. Kuznetsov, teaching assistant at Department of Nuclear Power Plants of Institute of Physics and Technology; office 248a of TPU building 10, 2 Lenina Street, Tomsk, Russia; Tel.: +7 (3822) ; е-mail: [email protected] 25

26 26 Institute of Physics and Technology

27 Institute of Physics and Technology tpu.ru INSTITUTE OF NATURAL RESOURCES The Institute of Natural Resources (INR) is a full legal successor of the more than a century of traditions that have arisen within the known research geological, chemical, and mechanical schools founded and developed through academicians V.A. Obruchev and V.A. Usov, N.N. Semenov, professors N.M. Kiszhner, E.V. Biron, and many others. At the Institute the centres of advancing training of world-class specialists in the most actual problems of mineral and raw complex were created. The Institute of Natural Resources of TPU as the centre of the best traditions and innovations in oil and gas education of Siberia is the large educational (more than 2500 students) and research centre in geology and oil and gas production, including 15 departments, 2 research and production centres («Water», «Geocentre»), 2 Innovative and educational centres («The uranium centre» and «The centre of pipeline transport of oil and gas»), the Petroleum Learning Centre approved by Heriot-Watt University (Scotland). In order to prepare for the professional elite of the national economy at the INR it is used an integrated, interdisciplinary approach to solve problems with the widespread application of modern methods of mathematical and physical modeling, information technology and commercial validation of the received results both in the framework of small businesses at TPU, and with the help of partners - leading companies from Russia and foreign countries: OJSC «Gazprom», OJSC «NK» Rosneft», OJSC «AK «Transneft», OJSC «Alrosa», OJSC «Polyus», JSC «Vostokgazprom», OJSC «Surgutneftegas», OJSC «Eastern multinational company», JSC «SIAM Company», JSC «SIBUR Holding», JSC «R-Pharm», FSUE «Siberian Chemical Plant», NJSC «Kazatomprom», «TNK - BP», «Shell», «Schlumberger», ExxonMobil, MISWACO and others. Over 90% of the INR graduates get a job according to direct placements of the enterprises. The faculty of the INR: 321 research and academic employees, including 168 PhD, 44 higher PhD, 5 academicians of RAS. 27

28 Institute of Natural Resources Bachelor s Degree Programme Ecology and Wildlife Managementе Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: training of professionals who are competitive both on the Russian and international labour market in Ecology and Wildlife Management; capability to assess anthropogenic impact on natural environment components as a result of any operational activities connected with exploration, extraction and processing of minerals, with the development of new knowledge-intensive and energy-intensive industries; elaboration of measures on environmental negative impact mitigation of people s business activities; training of graduates for work in the field of ecological standardization, geo-ecological monitoring and geo-ecological design. TRAINING OUTCOMES Competences gained: knowledge of Wildlife Management Basics, Wildlife Management Economics, Sustainable Development, Environmental Impact Assessment, Legal Basis of Wildlife Management and Environmental Protection; capability to understand, state and analyze in a critical manner basic information in Ecology and Wildlife Management; knowledge of Theory of Ecological Monitoring, Ecological Standardization, pollution reduction, anthropogenic systems and ecological risk; capability to use theoretical knowledge in practical work; basic general professional (general ecological) understanding of the Theory of General Ecology, Environmental Geology, Human Ecology, Social Ecology and Environmental Protection; skills in methods of applied environmental science, ecological mapping, ecological audit and monitoring; skills in methods of processing, analysis and synthesis of field survey information and laboratory environmental and environmental geological information, application of theoretical skills in practice; skills in methods of landscape and geo-ecological design, monitoring and audit; skills in methods of geo-chemical and geo-physical survey; methods of general and geo-ecological mapping; skills in Geological Information System technologies; ability to understand social significance of future profession. It includes high motivation to perform professional activities; ability to use fundamental principles and methods of social science, humanities and economic science; capability for organizational and management skills application in professional and in community activities. CAREER OPPORTUNITIES Employment areas: environmental protection and wildlife management bodies: agencies belonging to the Ministry of Natural Resources of the Russian Federation, the Ministry of Agriculture of the Russian Federation, the State Committee for Environmental Protection of the Russian Federation and other environmental protection departments and agencies). These areas also include environmental services of industries and departments and local authorities; establishments, agencies and enterprises, bureaus, centres and companies engaged in technological aspects of environmental protection and environmental safety assurance; wide-scale safety facilities, non-governmental organizations and funds, design, survey and research institutes, firms etc.; PhD programme; representative offices of international companies; educational institutions of elementary vocational, secondary vocational and higher vocational education. In addition, they include general education institutions etc. Career opportunities include the following professions: geo-ecologist, ecologist, engineer, environmental engineer, intern researcher in the field of ecology, science editor. The programme graduates may pursue their Ecology and Wildlife Management, subject area Environmental Problems Master s Degree. 28

29 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units History Philosophy Economics Foreign Language Business Economics Law Studies Foreign Language for Specific Purposes Informatics Biology Geography Mathematics Physics Chemistry Soil Science and Soil Ecology Geoinformation Systems in Ecology and Wildlife Management Geology Earth Resources Principles of Mineralogy and Petrography General Ecology Biodiversity Environmental Geology Human and Social Ecology Environmental Protection Theory of Atmosphere Theory of Hydrosphere Theory of Biosphere Landscape Science Basics of Wildlife Management Wildlife Management Economics Sustainable Development of Mankind Environmental Impact Assessment Legal Basis of Wildlife Management and Environmental Protection Ecological Monitoring Regulatory Actions and Natural Environment Pollution Reduction Technogenic Systems and Environmental Risk Basic Safety Theory of Lithosphere Theory of Mineral Resources Principles of Geophysics and Geophysical Ecology Research Methods for Natural Habitats Research Principles, Student Academic Research Urban Geography and Human Geography Mineralogy of Technogenic Formations Remote Research Methods Introduction to Engineering Creative Project Student Research Physical Training Subject Area Units (Specified Electives) Geoecology Geochemical monitoring Ecology of production and processing complexes and recultivation of affected natural systems Theory of geochemistry and geochemical cycles Principles of exploration and economic-geological evaluation of natural resources. CONTACT INFORMATION: Bachelor s Academic Curriculum Supervisor Mr Yegor Grigorievich Yazikov Doctor of Geological and Mineralogical Sciences, Chairman of the Department of Geoecology and Geochemistry, Professor Tel./fax +7 (3822) [email protected] Institute site: tpu.ru/en 29

30 Institute of Natural Resources Geology Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: training of professionals in the field of geology who meet this qualification. These professionals are expected to satisfy the needs of geological establishments and ore mining companies. They are also expected to be in demand on the domestic and international labour market in the light of contemporary requirements; integration of research work of students with their practical activities; reliance on cutting-edge technology in the field of training professionals and reliance on contemporary research and technology. TRAINING OUTCOMES Competences gained: professional knowledge of geology; knowledge of basic ideas and methods of mathematical analysis and statistics; knowledge of methods, techniques, collection media, processing and storage of information; knowledge of design methods and classification methods of geologic and commercial deposit types; procedural knowledge of acquisition techniques and laboratory research techniques; knowledge of methods and procedures of substance research and prospecting; foreign language skills; ability to use fundamental knowledge and specialist knowledge of geological sciences in solving job tasks; ability to generalize, acquire and analyze information, to establish goals and choose ways of their achievement; ability to develop prognostic and exploration models of different types of deposits; ability to plan and organize field acquisition and laboratory research; ability to use state-of-the-art computer technologies for data processing and in model building and in the course of project execution; ability to understand oral speech within the boundaries of professional subjects; to prepare and to deliver oral reports, to translate information, to write reports, articles and theses; ability to use information obtained from various sources in solving job related and social tasks; skills in information searching methods and information interchange in global and local networks; ability to work with library material; skills in building methods of prognostic and exploration models of deposits; skills in work with field acquisition and laboratory geological information; command of initiative in development of new methods of substance research, exploration activities and search of new technologies of ore mining and processing; aspiration for self-development, further training and professional excellence; high motivation to perform professional activities. CAREER OPPORTUNITIES Employment areas: Establishments of the Ministry of Natural Resources of the Russian Federation, the Ministry of Energy of the Russian Federation, the Ministry of the Russian Federation for Civil Defense, Emergency Management and Natural Disasters Response, the Russian Federation State Committee for Construction, Architectural and Housing Policy; academic and industry sponsored research establishments connected with solution of geoecological issues; geological establishments, geological survey and extracting firms and companies involved in mineral stock prospecting and extraction; 30

31 Institute of Natural Resources tpu.ru establishments of higher vocational and secondary vocational education. Career opportunities include: multi-skilled geologist trained for work both in the field and in laboratories as geologic engineer, crew head of manufacturing enterprises in geological companies and in the position of an engineer in research establishments, design and survey companies. It also may include other positions. Bachelor s programme graduates who show interest in advanced study of specific geological areas may pursue their Master s Degree in Geology of Radioactive Raw Materials and in Geology of Mineral Deposits. COURSE STRUCTURE Core units History Philosophy Economics Foreign Language Business Economics Law Studies Foreign Language for Specific Purposes Informatics Mathematics Physics General Geology Environmental Science Chemistry Research Methods of Material Composition of Ores and Minerals Earth Resources Geoinformation Systems in Geology Computer Technologies in Processing Geological and Geochemical Information in Radioactive Raw Material Deposits. Basics of Exploration Work Basics of Probe Boring in Radioactive Raw Material Deposits. Basic Safety Paleontology Historical Geology Geology of Russia Structural Geology with Basics of Geologic Mapping Geotectonics Lithology Geology of Mineral Resources Geophysics Mineralogy with Basics of Crystallography Petrography Geochemistry Engineering Geology with Basics of Geocreology Hydrogeology Geology and Geochemistry of Fossil Fuel Deposits Ecological Geology Remote Research Methods Research Principles Computer Technologies in Reserves Estimates Quaternary Geology with Basics of Geomorphology Mineralogy of Technogenic Formations Introduction to Engineering Creative Project Student Academic Research Physical Training Subject Area Units (Specified Electives) Geology Forecasting and Geological and Economic Assessment of Mineral Deposits. Basics of Metallogeny and Structure of Ore Fields Geochemical Search Methods of Mineral Deposits Ecology of Mining, Production and Processing Complexes Principles of Resource-Efficient Technologies of Mineral Materials Utiliziaition Экспериментальные методы в исследовании конденсированного состояния CONTACT INFORMATION: Bachelor s Programme Academic Curriculum Supervisor Mr Sergey Ivanovich Arbuzov Doctor of Geological and Mineralogical Sciences, Professor of the Department of Geoecology and Geochemistry Tel. / fax: +7 (3822) , [email protected] Institute site: tpu.ru/en 31

32 Institute of Natural Resources Bachelor Management Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: motivational approach to knowledge accumulation, teamwork. It also includes knowledge of regional specific features and engineering and economical conditions of oil and gas industry; capability for rapid adaptation to work conditions of oil and gas companies in a changeable professional environment; readiness to apply methods of production and administrative activity business economics, price determination and cost accounting of production, work breakdown and performance standards studies, financial planning and management, economic efficiency determination of new equipment and technology implementation in oil and gas enterprises; readiness to take part in work organization of groups of employees in oil and gas industry; capability for elaboration of measures aimed at efficiency enhancement, organization and management improvement in oil and gas enterprises; ability to apply information technology to solve business problems in oil and gas enterprises. TRAINING OUTCOMES Competences gained: financial accounting analysis of oil and gas companies, evaluation of solution justification in investment, credit and financial areas; development of innovation strategies and innovation growth programmes of industrial companies, innovation technology efficiency analysis at all stages of oil and gas resources development and utilization, ranking of various innovation activity areas of oil and gas companies; capability of industrial companies control, adaptation of procedures and control methods for application in oil and gas production management system. It includes the development of new procedures and methods; knowledge of strategic management, including strategic analysis and strategic planning. It also includes strategy development of organizations operating on the real estate market; capability to perform project analysis, efficiency estimation of investment into real estate market items, efficiency estimation of project solutions when using various investment and financing models. create and develop their own business. Career opportunities include: economist, manager, estimating and management department leading specialist employed by various companies; low-tier administrator or manager in various services of State and regional executive offices; first-line administrator in industry research institutes and design establishments; private entrepreneur. CAREER OPPORTUNITIES Employment areas: organization and management work, information analysis activities and entrepreneurship. Potential employers: establishments of any organizational legal form. They include commercial, non-profit, State, municipal enterprises, State administrative and municipal administrative bodies, companies where graduates 32

33 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units History Philosophy Foreign Language Law Studies Psychology Sociology Management Sociology Foreign Language for Specific Purposes Mathematics Theory of Statistics Socio-Economic Statistics Informatics Information and Computer Technologies in Management Managerial Decision Making Methods Concepts of Modern Natural Sciences Environmental Science Mathematical Simulation of Organization and Economic Systems Management Theory Marketing Accounting and Analysis Financial Management Human Resource Management Strategic Management Corporate Social Responsibility Basic Safety Business Planning Leadership Business Economics Management Activity Documentation Innovation Management Logistics Investment Valuation Student Academic Research Corporate Management Economic Law Quality Management Metrology and Standardization Business Ethics Professional Basics Creative Project Global Economy Physical Training Military Training Subject Area Units (Specified Electives) Enterprise Economics and Management in Oil and Gas Sector Commodity Science of Hydrocarbonic Products Oil-and-Gas Industry Economics Risk Management Financing and Operating Activity Analysis of Oil and Gas Industries Basic Petroleum Law Business Process Management in ERP Systems Feasibility Study and Petroleum Project Management Basic Petroleum Engineering Industrial Engineering and Management in Oil and Gas Industry Enterprise Economics and Management (real estate operations) Property and Transaction Taxation Real Estate Economics Risks in Development Management Land Management and Inventory Land Law Including Administrative and Civil Laws Business Process Management in ERP Systems Business Cost Estimation Basics of Construction Production Management in Investment and Construction Field CONTACT INFORMATION: Academic Curriculum Supervisor Ms Yekaterina Yurievna Kalmykova the Department of Management Associate Professor, Candidate of Economic Sciences Tel.: +7(3822) Associate Professor of the Subject area supervisor: Mr Grigory Yurievich Boyarko, the Department of Natural Resources Economics Chairman, Doctor of Economics, Professor Tel.: +7(3822) , Institute site: tpu.ru/en 33

34 Institute of Natural Resources Land Management and Cadastral Register Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: use of ECTS (European Credit Transfer System) for competence assessment. The use of the programme didactic units that provide their achievement; incorporation of BS EN ISO 900:2008 international standard requirements, incorporation of Standards and Guidelines for Quality Assurance in the European Higher Education Area (ESG). It also includes incorporation of national and international quality criteria of education programmes (Association of engineering education of Russia, concurred with EUR-ACE Framework Standards for Accreditation of Engineering Programmes u FEANI); involvement of experts from enterprises in mineral resources sector and agro-industrial sector for determination of job tasks content; active academic mobility of students and staff members. Institute of Natural Resources students improve their linguistic, communication and professional skills and knowledge by way of their active involvement in international academic exchange programmes. TRAINING OUTCOMES Competences gained: capability to apply fundamentals, principles and provisions of legal, economic and administrative control of land and property regulation. It covers capability to apply the content of codes and standards of civil and industrial relations law, land, administrative and nature resources law; efficient individual and teamwork ability; capability to apply state-of-the art facilities and methods of safety improvement, environmental friendliness and land management stability; ability to recognize the viability of intellectual, cultural, moral, physical and professional self-development and self-improvement; capability to perform research activities in the field of land management and inventory based on systematic study of scientific and technical information and study of domestic and international experience. CAREER OPPORTUNITIES Activity spheres: The Bachelors professional activities include: land and property regulations; land resources management system and real property items management system; organization of land use management areas, forecasting, planning and design of land use, sustainable use and land protection. It includes inventory count, cadastral valuation and certification of real property items; topographic-geodesic and cartographic support of land management and inventories, real property items positioning, cadastral survey, organization of cadastral information systems; land survey and generation of other real property items; law enforcement on establishment of right and use of land plots control and other real property items control; real property items inventory; land and other property monitoring; real property items taxation; realtor activities, valuation and consulting activities in the field of land and property complex. Types of establishments: design, survey, production, research establishments and agencies for nature protection and environmental management. They also include general education and specialized education institutions: Non-profit organization Self-regulated organization of cadastral engineers activities, Non-commercial organization Russian association of private surveyors, the Department for Architecture and Town Planning of the Administration of the city of Tomsk, the Department of the Federal Service for State Registration, Cadastral Records and Cartography for the Tomsk region, ООО Tomsk engineering company, ТОО Geo-Resource, the Republic of Kazakhstan, ООО Land and real estate, ОАО Khakass trust of construction survey, ООО Gazprom Transgaz Tomsk, Federal State Institution Land Cadastre Chamber for the Tomsk region, the Department of natural resources and environmental protection for the Tomsk region, ОАО Tomskagropromprojekt, ОАО Sibnefteprovod, Tomsk Municipal Unmitary Enterprise Zempeustroitel, ZAO GEO Research and production company. Career opportunities include: cadastral engineer; geodetic engineer; surveying engineer; production department manager; assessor; manager; public employee. 34

35 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units Foreign Language History Philosophy Economics Business Economics Law Studies Foreign Language for Specific Purposes Environmental Science Soil Science and Engineering Geology Informatics Mathematics Physics Geographic and Land Information Systems Research Principles Statistics in Land Management Computer Graphics Geoinformation Technologies Geology Environmental Land Use Subject Area Units (Specified Electives) Land Management Geodesy Materials Science Environmental Engineering Basic Land Management Basic Safety Metrology, Standardization and Certification Cartography Photogrammetry and Remote Sensing Mathematical Methods and Modeling in Economics Basics of Urban and Rural Planning Legal Groundwork for Land Management and Inventory Land Inventory. Real Property Typology Basics of Wildlife Management Applied Geodesy Land Allocation and Land Resources Management Landscape Science AIC Municipal Administration Farm Management and Production Techniques Land Inventory Automation Systems and Land Management Design Basics of Resource Efficiency in Land Management Records Management Innovation Land Management Introduction to Engineering Land Management Engineering Land Use Planning Land Inventory and Monitoring Regional Land Management Land Economics Physical Training Military Training CONTACT INFORMATION: Academic Curriculum Supervisor Mr. Sergey Vladimirovich Seryakov Candidate of Geological and Mineralogical Sciences, Associate Professor of the Department of Geology and Land Management of the Institute of Natural Resources Tel.: 8 (3822) , [email protected] Institute site: tpu.ru/en 35

36 Institute of Natural Resources Bachelor Petroleum Engineering Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: focus on graduates competency training outcomes during programme development, implementation and assessment; application of ECTS credit system for competency assessment and also the use of didactic programme units which ensure their achievement; incorporation of ISO 9001:2000 international standards, European standards and guidance to ensure higher education quality under Bologna process and also national and international education programmes quality criteria. TRAINING OUTCOMES Competences gained: understanding of work execution theory in oil and gas engineering, of process equipment reliability, of fluid mechanics and thermodynamics, production processes control and automation, of resourcesaving technologies and environmental protection, of industrial and fire safety; skills in state-of-the-art computer technologies of group and individual design of oil and gas industry facilities; professional level foreign language skills; computational analysis of hydrocarbons drilling, production, treatment, transportation and storage operating practices and capability to select best practices; knowledge of recent diagnostic, maintenance and repair systems of oil and gas sector equipment. COURSE STRUCTURE Core units Foreign Language Economics Mathematics Physics Chemistry Informatics Mechanics Descriptive Geometry and Engineering Graphics Materials Science and Engineering Materials Electrical Engineering Oil-and-Gas Chemistry Hydraulics and Oil-and-Gas Hydromechanics Thermodynamics and Heat Transfer Basic Safety Metrology, Standardization and Certification CAREER OPPORTUNITIES Employment areas: Employment areas: engineering and manufacturing, organization and management, experimental and research, design activities in the field of innovation technologies, in construction, operation and repair of field production object sites, transportation and storage of hydrocarbons in compliance with natural resources and environmental protection rational use principles. Potential employers: service drilling companies, oil and gas production companies, hydrocarbons pipeline transportation companies and research and development centers. Career opportunities include: Pipeliner; Engineer; Process man. Upon completion of the 1 year of studies students undergo training and receive a qualification of oil and gas production operator and assistant driller. Principles of Workflow Automation in Oil-and-Gas Industry Electives: Law Studies Physical and Colloid Chemistry Physicochemical Basics and Operating Procedures, Transportation and Storage of Hydrocarbons Petrophysics Mathematical Basis of Reliability Theory Lithology History of Oil and Gas Industry and Basic Petroleum Engineering Oil and Gas Geology Industrial Engineering and Management (Basics of Management) Principles of Resource-Efficient Wildlife Management Student Academic Research Machines and Equipment of Oil and Gas Industry Facilities 36

37 Institute of Natural Resources tpu.ru Geodetic Support of Oil and Gas Industry Facilities Construction Geodetic Support of Oil and Gas Pipelines and Oil and Gas Storages Operation Reservoir Engineering Design of Gas and Oil Pipelines and Gas and Oil Storages Principles of Petrophysics and Geophysical Control in Oil-and-Gas Well Drilling and Operation Earth Resources Computer Simulation in Petroleum Engineering Subject Area Units (Specified Electives) Design and Repair of Pipeline Transportation Systems Facilities Engineering Structures Construction and Repair of Tank Batteries, Pipeline Terminals and Gas Storages Construction Supervision and Diagnosis of Trunk Pipelines Construction and Repair of Pump and Compressor Stations Technology of Metals and Pipeline Construction Materials Site Welding in Pipeline Construction and Structures of Oil and Gas Sector Facilities Technical Diagnosis of Pump and Compressor Stations Maintenance and Repair of Oil and Gas Pipelines Compressors Operation and Service of Oil, Gas and Processing Products Transportation and Storage Facilities Oil Spill Response Hydraulic Machines and Air-Oil Circuit Ad Hoc Methods of Hydrocarbons Transportation Compressor Station Operation Safety of Engineering Processes in Oil and Gas Transportation Reliability and Longevity of Machines Non-Destructive Testing and Diagnostics Corrosion and Corrosion Protection of Gas and Oil Pipelines Gas-Turbine Power Plants Operation and Service of Oil Extraction facilities Oil and Gas Collecting and Preparation for Further Transportation Oil Recovery Monitoring and Control Geological Support for Oil-and-Gas Field Exploration Technologies of Oil and Gas Well Operation Methods and Technology of Well Productivity Improvement Hydrodynamic Study of Deposits and Wells Reservoir Hydraulics Estimates of Hydrocarbonic Reserves and Resources Software Systems for Development of Hydrocarbon Reservoirs Oil and Gas Well Drilling Drilling Technologies of Oil and Gas Wells Drilling Process Liquids Geosteering in Drilling Well Completion Design of Oil and Gas Wells Physics of Rock Destruction Reservoir Hydraulics Reconstruction and Recovery of Wells Troubles and Accidents in Drilling CONTACT INFORMATION: Academic Curriculum Supervisor Ms Nataliya Vyacheslavovna Chukhareva Candidate of Chemical Sciences, Associate Professor of the Department of Oil and Gas Storage and Transportation of the Institute of Natural Resources. Tel.: +7(3822) Institute site: tpu.ru/en 37

38 Institute of Natural Resources Bachelor Chemical Engineering Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: professional training of graduates in chemical engineering, technologies of treating, primary and advanced processing of oil, gas and gas condensate. It also covers production technology of heat-resistant non-metallic and silicate materials, polymer materials, organic and inorganic substances, technologies of synthetic bioactive substances, chemical and pharmaceutical products and beauty preparations. It equally includes world market competitive chemical technologies: opportunity to participate in practical research and development efforts and projects of the Tomsk Polytechnic University, the Tomsk State University, of academic and design institutes, research and production centers, industrial companies. In the course of research and development activities students may use state-of-the-art equipment; combination of background knowledge with professional skills and abilities by virtue of experience and traditions of the Tomsk Polytechnic University scientific schools of chemical process engineers. It combines research work, state-of-the-art computer and education technologies and high human resources potential; Professional level of graduates is defined by requirements of leading consumer companies. These requirements are based on key principles of modern chemical industry branches. They include high manufacturability, ubiquity of state-of-the-art IT solutions, computer aided design and management Chemical Engineering education programme was formed in compliance with requirements of international accreditation agencies. TRAINING OUTCOMES Competences gained: ability to apply knowledge in the field of chemical engineering processes for analysis and job tasks solution; capability to use recent chemical engineering achievements; capability to develop new operating procedures. It includes a capability to design and use new chemical engineering equipment. It equally covers the ability to design chemical engineering facilities in the context of specific enterprises, society and the environment; capability to find organization and management solutions in manufacturing situations. CAREER OPPORTUNITIES Employment areas: development of methods and techniques for producing substances and materials by means of physical, physicochemical and chemical processes. It includes production of various application items which are based on substances and materials produced; establishment, manufacturing application and operation of industrial production of inorganic substances, heat-resistant non-metallic and silicate materials, main and fine organic synthesis products, polymer materials, treating and processing products of oil, gas and solid fuel, medical products, energy saturated materials and items on their basis. Potential employers: chemical, petrochemical and biotechnological companies, oil and gas sector companies, research institutes and design organizations: ОАО Samaraneftekhimproyekt, Scientific and Production Centre Polyus, ООО NIOST, Academician E. I. Zababakhin Applied Physics All-Union Research Institute Russian Federal Nuclear Centre, the city of Snezhinsk, Research and Production Company Polymer-Compound, ООО Tomskneftekhim, ООО Sibmetakhim, ОАО Tomskgazprom, ОАО KINEF, the city of Kirishi, Leningrad region, ООО Tomskneftepererabotka, ОАО Tomskneft, ООО Tomsk rubber footware manufacturing plant, ZAO Sibkabel, the city of Tomsk, ОАО Yugrgagazpererabotka, city of Yugra, the Khanti-Mansi Autonomous District, ОАО Farmstandart-Tomskkhimfarm, ОАО Organika, the city of Novokuznetsk, Kemerovo region, Omsk oil processing combine, Kemerovo production enterprise Azot, ОАО Holding company Siberian cement, the city of Kemerovo, АО Glass company SAF, the city of Almaty, the Republic of Kazakhstan, ОАО SiburTyumenGaz, ОАО TomskNIPIneft VNK, ООО RN-Primors Oil Processing Plant, ООО Gazpromneft- Vostok, Schlumberger Limited etc. Career opportunities include: process engineer, design engineer, production section manager. 38

39 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units Foreign Language Law Studies Mathematics Informatics Physics Chemistry Organic Chemistry Physical Chemistry Descriptive Geometry and Engineering Graphics Mechanics Basic Safety General Applied Chemistry Processes and Devices of Industrial Chemistry Chemical Reactors Simulation of Chemical Engineering Processes Control Systems for Chemical-Engineering Processes Interdisciplinary Examination in that Specialist Stream Variable part Introduction to Engineering Foreign Language for Specific Purposes Russian Language and Speech Standards / Cultural Studies Psychology / Sociology Economics / Business Economics Advanced Course on Informatics Colloid Chemistry Management Analytical Chemistry and Physicochemical Analysis Creative Project Advanced Course on Organic Chemistry Advanced Course on Physical Chemistry Materials Science Electrical Engineering and Industrial Electronics Metrology, Standardization and Certification Subject Area Units (Specified Electives) Chemical Engineering of Natural Energy Carriers and Carbon Materials Design Basis and Factory Equipment Chemical Utilization of Natural Gas Chemical Engineering of Natural Energy Carriers Chemical Engineering of Fuel and Carbons Theory of Chemical Engineering of Fuel and Carbons Chemical Engineering of Organic Substances Theory of Organic Synthesis Chemical Technology Processes Chemical Technology of Organic Substances Design Basis and Processing Equipment for Organic Synthesis Chemical Engineering of Inorganic Substances Devices and Research Methods in Engineering of Inorganic Substances Engineering Thermodynamics and Heat Engineering Theory of Inorganic Substances Engineering Design Basis and Equipment Chemical Engineering of Inorganic Substances Chemical Engineering of Synthetic Bioactive Substances, Chemical-Pharmaseutical and Beauty Products Biomedical Basics of Bioactive Compounds Action Chemical Engineering of Bioactive Substances Design Basis and Chemical and Pharmaceutical Equipment for Bioactive Substances Manufacturing Methods of Analysis, Control and Certification of Bioactive Substances Pharmaceutical Dosage Forms Technology Engineering Processing of Polymer Materials Polymer Chemistry and Physics Chemical Engineering of Raw Materials and Monomers General Chemical Engineering of Polymers Design Basis and Equipment for Polymer Manufacturing Basics of Plastics Processing Technology Technology of Heat-Resistant Non-Metallic and Silicate Materials Mineralogy and Crystallography Physical Chemistry of Heat-Resistant Non-Metallic and Silicate Materials Thermal Processes in Technology of Heat-Resistant Non-Metallic and Silicate Materials General Technology of Ceramics and Refractory Products General Technology of Binding Materials General Technology of Glass and Glass-Ceramics Design Basis and Equipment for Heat-Resistant Non- Metallic and Silicate Materials Manufacturing Theory of Ceramics and Refractory Products Engineering Theory of Binding Materials Technology Theory of Glass Processing CONTACT INFORMATION: Academic Curriculum Supervisor Ms Olga Efimovna Moizes Candidate of Engineering Sciences, Associate Professor of the Department of Chemical Engineering of Fuels and Chemical Cybernetics, Institute of Natural Resources Tel.: +7(3822) , [email protected] institute site: tpu.ru/en 39

40 Institute of Natural Resources Energy-Efficient and Resource-Saving Processes in Chemical Engineering, Petrochemistry and Bioengineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: professional training in the field of energy-efficient and resource-saving, environmentally safe technologies: chemical engineering, technologies of well preparation, primary and advanced processing of oil, gas, gas condensate and petrochemistry. It also includes research training; opportunity to participate in practical research and development efforts and projects of the Tomsk Polytechnic University, the Tomsk State University, of academic and design institutes, research and production centers, industrial companies, to use state-of-the-art equipment in the course of research and development activities; engineering and design training in chemical technological processes based on application of mathematical simulation method and computer simulation systems. It makes it possible to ensure the resource efficiency of the designed and existing industry. TRAINING OUTCOMES Competences gained: capability to apply knowledge in the field of energyefficient and resource-saving processes in chemical engineering, petrochemistry and bioengineering for analysis and solution of production tasks; capability to design and operate modern energyefficient and resource-saving equipment in chemical engineering, petrochemistry and bioengineering. It also includes ensuring its high efficiency. CAREER OPPORTUNITIES Employment areas: creation, implementation and operation of energyefficient and resource-saving and environmentally friendly technologies and equipment for the production of refinery products of oil, gas, solid fuel, basic mineral substances, basic synthesis products and specialty chemicals, polymer materials, microbiological synthesis, pharmaceuticals and food substances; development of industrial and domestic household waste management methods, secondary raw material resources management methods, their processing and recycling. 40

41 Institute of Natural Resources tpu.ru Types of companies: chemical, petrochemical and biotechnological industry companies, oil and gas sector companies, research institutes and design organizations: OAO NK ROSNeft (city of Krannodar), Surgut, Omsk and Achinsk oil refineries, Angarsk oil refining combine, OAO Samaraneftekhimproekt, KINEF (city of Kirshy), Kemerovo Prodction Assiciation Azot, OAO TomskNIPIneft VNK, ООО SIBUR Tomskneftekmin, OAO Tomskgazprom, OAO Tomskneftekmimpererabotka, Scientific-Production Assocoation Polimer-compaund (city of Tomsk), OAO Tomskneft VNK (city of Strezhevoy), OAO Organika (city of Novokuznrtsk), OAO Nevinnomyssky Azot (city of Nevinnomyssk), Federal State Unitary Enterprise Production Association Electrochemical Plant (city of Zelenogorks), ООО Evrokhim-Belorechenskiye Minudobreniya (city of Belorechensk), ООО Bioplast-M (Moscow region ), OAO NII Atomnykh reactorov (city of Dimitrovgrad) etc. Career opportunities: engineer, design engineer, production section manager. COURSE STRUCTURE Core units Foreign Language Law Studies Mathematics Informatics Physics General and Inorganic Chemistry Organic Chemistry Physical Chemistry Descriptive Geometry and Engineering Graphics Environmental Science Industrial Ecology General Applied Chemistry Processes and Devices of Industrial Chemistry Environmental Protection Processes and Devices Control Systems for Chemical-Engineering Processes Creative Project Interdisciplinary Examination in Specialist Stream Bachelor s Graduation Thesis Variable part Foreign Language for Specific Purposes Russian Language and Speech Standards / Cultural Studies Psychology / Sociology Economics / Business Economics Introduction to Engineering Advanced Informatics Course Colloid Chemistry Physicochemical Methods of Analysis Analytical Chemistry Simulation of Energy-Efficient and Resource-Saving Processes in Chemical Engineering, Petrochemistry and Bioengineering Materials Science Metrology, Standardization and Certification Electrical Engineering and Industrial Electronics Mechanics Management Student Academic Research Creative Project Subject Area Units (Specified Electives) Main Processes of Chemical Production and Chemical Cybernetics System Analysis Chemical Engineering Processes Mathematical Simulation of Chemical-Engineering Processes Oil and Gas Processing Design Principles of Natural Energy Carriers Treatment Processes Cybernetics Methods of Chemical Engineering Processes Chemical Process Macrokinetics and Reactor Design Advanced Course on Organic Chemistry Advanced Course on Physical Chemistry Chemical Production Machines and Devices Design Engineering of Equipment Components of Industry Energy-Saving Production Design and Resource- Saving Production Design Technology of Chemical Machine Building Installation, Operation and Repair of Equipment of Industry Engineering of Major Equipment of Industry Chemical, Oil Refining, Petrochemical Machines and Devices Principles of Computer-Aided Design Chemical Strength of Materials and Corrosion Protection CONTACT INFORMATION: Academic Curriculum Supervisor Ms Natalia Viktorovna Usheva, Candidate of Chemical Sciences, Associate Professor of the Department of Chemical Engineering of Fuels and Chemical Cybernetics of the Institute of Natural Resources Tel..: +7 (3822) [email protected], Institute site: tpu.ru/en 41

42 Institute of Natural Resources Environmental Engineering and Water Resources Management Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: This programme incorporates the complex of universal disciplines (Hydrometeorology, Hydrogeology, Integral Use and Protection of Water Resources, etc.). It also makes it possible to train skilled professionals who have all the required knowledge and skills in the field of environmental engineering. Students are ready to work in companies or to pursue their Master Degree. TRAINING OUTCOMES Competences gained: capability to perform studies on condition assessment of natural and built environment for justification of decisions to be taken during the design of entities of environmental engineering and water resources management; capability to operate engineering tools during measurement of basic parameters of natural processes with the regard to metrological principles; capability to use methods of structure selection and parameters of environmental engineering and water resources management systems; capability to use design methods of engineering structures and their structural components; capability to exercise consistency control of designs to be developed and engineering documentation to quality system procedures; capability to use methods of ecological, economic and technological efficiency evaluation during design and execution of environmental engineering and water resources management projects; capability to make professional decisions in the course of construction and operation of environmental engineering and water resources management objects; capability to use provisions of water use and land use legislation and guidance on natural resources in the course of water resources management, land-use management and development of natural environment; readiness to take part in individual task solutions during research activities on the impact of construction processes and operation of objects of environmental engineering and water resources management on natural environment components; planning and execution of required experiments and their processing. It includes the use of applied software programmes, interpretation of results and formulation of conclusions; application of physico-mathematical techniques for the solution of computational and analytical tasks occurring in the course of professional activity; selection and application of relevant simulation methods of physical, chemical and engineering processes; data gathering to perform work on design of water management systems; implementation of individual elements of projects at the stages of preliminary design, engineering design and detailed design; drafting of standard design-driven documents, fabrication documents and working documents in accordance with imposed requirements. CAREER OPPORTUNITIES Employment areas: Upon receiving their Bachelor s Degree graduates may continue their studies if they successfully pass their Master s exams. The department graduates may work in the oil and gas sector of the Russian Federation, in mining companies of Siberia and Far East of Russia, in environmental bodies belonging to the Ministry of Natural Resources and Ecology of the Russian Federation and administrations of constituent entities of the Russian Federation. It includes Tomsk region establishments and institutes the Siberian Branch of Russian Academy of Sciences and universities. 42

43 Institute of Natural Resources tpu.ru Graduation thesis areas: They are related to the issues of environmental engineering and water resources management, engineering survey for construction, environmental geology, water resources management: assessment of environmental and geochemical condition of natural environments (natural waters, soil, atmosphere); project (programme) of ecological monitoring of natural environments; forecast (assessment) of waters objects quality change affected by sewage waters discharge by industrial companies; impact assessment on water objects within the deposit boundaries (commercial mineral deposits); project (justification) of water object conservation zones; project (justification) of sanitary protection zones of water supply sources; survey of water (hydrochemical) conditions of water objects (underground and surface water objects); environmental and legal issues of natural waters use. Possible work placement opportunities: Divisions of the Federal Agency for Water Resources, the Federal Subsurface Management Agency and the Agency on Hydrometeorology and Environmental Monitoring, departments of natural resources of administrations of constituent territories of the Russian Federation, oil and gas companies, gold mines and coal producers of Siberia and Far East of Russia, institutes of the Siberian Branch of Russian Academy of Sciences, design, survey and geological companies. COURSE STRUCTURE Core units Philosophy History Foreign Language Production Economics Quality Management Water, Land and Environmental Laws Optional courses Mathematics Physics Chemistry Hydrology, Climatology and Meteorology Hydrogeology and Basic Principles of Geology General Geology General Hydrogeology Soil Science Environmental Science Water engineering Design of water economy systems Biology Environmental Geology Natural and Built Environment and Water economy systems and water consumption Organization and work methods on environmental engineering and water consumption Operation and monitoring of systems and facilities Environmental Engineering and Water consumption machines and equipment Basics of Construction Basic Safety Hydraulics Metrology, Standardization and Certification Information Technologies Electrical Engineering, Electronic Engineering and Automation Geological and Engineering Graphics Mechanics Ecologico-economic rationale for engineering decisions Mineralogy and Geochemistry Legal Basis of Nature Management Physical Training Engineering Geology Geodesy Environmental Impact Assessment Landscapes and Built Environment Principles of engineering surveys Integral Use and Protection of Natural Resources Subject Area Units (Specified Electives) Integral Use and Protection of Natural Resources Hydrogeochemistry of Hypergenesis Zone Engineering systems of water supply and drainage Integral Use of Water Resources Protection of Water Resources Streamflow Control Wildlife Management Water Resources Management CONTACT INFORMATION: Academic Curriculum Supervisor Ms Elena Yurievna Pasechnik Candidate of Geological and Mineralogical Sciences, Associate Professor of the Department of Hydrogeology, Engineering Geology and Hydrogeoecology of the Institute of Natural Resources. Tel.: +7(3822) Institute site: tpu.ru/en 43

44 Institute of Natural Resources Specialist s Degree Programme Applied Geology Specialist Duration: 5 years ACADEMIC CURRICULUM OUTLINE Programme distinguishing features: training of world class specialists and teams of professionals in applied geology. Specialists are expected to be ready to perform their work in view of contemporary economic relations, the development of world information resources and high-end technologies. The programme distinguishing feature lies in the fact that graduates have a unique opportunity to participate in research efforts and in viable projects related to development of new technologies. In the course of training and research work they also have an opportunity to use cutting-edge equipment that belongs to the National Research Tomsk Polytechnic University, Tomsk NIPIneft design institute, the Institute of Oil Chemistry of the Russian Academy of Sciences Siberian branch and Tomsk free zone companies. TRAINING OUTCOMES Competences gained: application of theoretical knowledge in the course of occupational studies, production research and engineering survey in compliance with specialist field; capability to select technical facilities for solving general professional tasks. It includes capability to monitor application of technical facilities; capability to perform geological observations, their logging and mapping on survey sites. It includes the ability to draw out geological diagrams, maps, plans and transverse sections; capability to perform economic-geological evaluation of study objects; capability to perform geological quality control of all types of geological work activities at various study phases of specific objects; capability to apply major principles of natural resources sustainable use and environmental protection; capability to prepare and approve geological project statement tasks for project solutions development; use of knowledge related to geological exploration acquisition planning and office work planning methods. It includes engineering evaluation for selection of technical facilities during work execution; engineering design activities related to projects. It also includes technoeconomic study, functional and cost analysis of project economics; capability to study, critically evaluate scientific, research and development information of domestic and international practices related to geological programme research; ability to plan and execute analytical and simulation studies and experimental research. It includes critical evaluation of research results and drawing conclusions; capability to perform mathematical simulation of processes and objects based on computer-aided design standard packages and surveys; capability to prepare data for reviews, reports and academic papers; ability to determine cost estimate of main production resources; capability to organize work of performers, to find and make management decisions in labour management and in work measurement. It also includes the ability to take the lead; capability to draw up technical documents to perform work activities (work schedules, procedures, plans, cost estimates, material requests, equipment requests etc.). It also includes established reporting requirements as per approved forms; capability to execute cost-benefit and performance analysis of production departments. It also includes the ability to evaluate and obtain resources provision required for professional work; capability to manage projects. CAREER OPPORTUNITIES Employment areas: engineering and manufacturing, design, research and organization and management. Potential employers: small and medium-sized businesses, major Russian and international companies which are engaged in geological exploration, engineering geology, mineral production and processing. It also includes research institutes and universities.. Career opportunities include: geologic engineer, production department manager, researcher, teacher. 44

45 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units History Philosophy Foreign Language Economics Law Studies Legal Basis in Subsoil Management Chemistry General Geology Informatics Environmental Science General Geochemistry Mathematical Methods of Simulation in Geology Mathematics Linear Algebra and Analytic Geometry Differential Calculus Physics Oil-and-Gas Chemistry Physics of the Earth Principles of Geodesy and Topography Engineering and Geological Graphics Crystallography and Mineralogy Principles of Hydrogeology Mining Machinery and Prospect Opening Work Principles of Paleontology and General Stratification Mechanics Structural Geology Petrography Historical Geology Metrology and Standardization Electrical Engineering and Electronics Basics of Engineering Geology Drilling Machines and Well Drilling Geomorphology and Quaternary Geology Lithology Regional Geology Basic Safety and Geological Explorations Safety Minerals Studies Geotectonics and Geodynamics Economics and Geological Explorations Subject Area Units (Specified Electives) Prospecting and Exploration of Solid Mineral Deposits Blast Hole Drilling Geophysical Methods in Mineral Deposit Exploration Stratigraphic Analysis Sampling of Solid Minerals Forecasting and Exploration of Mineral Deposits Principles of Ore Procesing Technology Principles of Solid Mineral Deposits Development Exploration and Economic-Geological Evaluation of Mineral Deposits Commercial Types of Mineral Deposits Oil and Gas Geology Oil-and-Gas Chemistry Physics of the Earth Petroleum Geology and Geochemistry Theory of Oil and Gas Exploration Field Geophysics Well Survey Oil and Gas Provinces in Russia Oil-Field Geology Estimates of Hydrocarbonic Reserves and Resources Reservoir Hydraulics Basic Computer Technologies for Geological Problem Solving Basics of Oil and Gas Field Development Underground Water Exploration and Geotechnical Investigations Oil-and-Gas Chemistry Physics of the Earth General Hydrogeology General Engineering Geology Soil Science Principles of Geophysical Research Methods Dynamics of Underground Water Water Supply and Engineering Amelioration Engineering Structures Underground Water Exploration Geological Engineering Survey Engineering Geodynamics CONTACT INFORMATION: Academic Curriculum Supervisor Mr Valery Gavrilovich Voroshilov Doctor of Geological and Mineralogical Sciences, Professor Tel.: +7(3822) Institute site: tpu.ru/en Laboratory Methods of Raw Materials Study Geological Mapping 45

46 Institute of Natural Resources Geological Exploration Process Specialist Duration: 5 years ACADEMIC CURRICULUM OUTLINE Programme features: focus on graduates competency gained during programme development, implementation and assessment; application of ECTS credit system for competency assessment and also the use of didactic programme units which ensure their achievement; incorporation of ISO 9001:2000 international standards, European standards and guidance to ensure higher education quality under Bologna process and also national and international education programmes quality criteria. TRAINING OUTCOMES Competences gained: Graduates have unique competencies in the related fields (mineral deposits exploration and development). They have expertise in solving interdisciplinary tasks (geology, physics, physics of the Earth, mathematics, design of devices). Graduates have a well-balanced combination of background and vocationally-orientated knowledge and skills. They are capable of using their skills in solution of specific tasks related to geological exploration of various mineral deposits. CAREER OPPORTUNITIES Employment areas: The sphere of graduates s professional work includes combination of technologies, facilities, techniques and methods of human activity in science, engineering and industry aimed at mineral deposits exploration and operation. It also covers study of subterranean processes. Potential employers: The Department graduates have ample employment opportunities. The reason for this is that they may be employed by numerous enterprises involved in: exploration and operation of oil and gas deposits, hard-coal deposits, ferrous metal ores, nonferrous metal ores, noble metal ores and rare metal ores, construction materials and underground water; study of geological structure of the Earth crust and deep subsurface resources, interior sea and world ocean shelves, geotechnical conditions in construction of oil and gas pipelines, railways, dams, power stations and other major industrial facilities; research efforts in archaeological, glaciological, limnological, geo-ecological, marine, navigation, meteorological, military, agricultural, forest, search and rescue and other activities; research work in various knowledge areas. Mainly it covers Earth sciences. Career opportunities include: engineer; process engineer. 46

47 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units Foreign Language Economics Business Economics Law Studies Legal Basis of Subsurface Management Mathematics Physics Informatics Chemistry Environmental Science Physics of the Earth Rock Physics Petrophysics Continuous Medium Physics Field Theory Mineralogy and Petrography Structural Geology Basic Safety Mechanics Descriptive Geometry and Engineering Graphics Metrology, Standardization and Certification Management Electrical Engineering and Electronics Well Drilling Principles of Geodesy and Topography Geology Mineral Deposits Exploration Hydrogeology and Engineering Geology Mineral Deposits Geoexploration Well Survey Computer Technologies Blasthole Drilling Mathematical Simulation Applied Hydrodynamics Applied Thermophysics Geological Exploration Design Geological Process Survey of Oil and Gas Wells Radiometrics and Nuclear Geophysics Geophysical Methods of Mineral Deposits Exploration Integration of Geophysical Survey Methods Geology and Hydrocarbon Deposits Exploration Seismic Survey Geophysical Methods of Well Survey Nuclear Geophysics and Well Radiometrics Electromagnetic and Acoustic Well Survey Geophysical Field Development Control Data Interpretation of Well Survey Comprehensive Interpretation of Well Survey Well Survey Devices Geologic-Geophysical Simulation of Developed Reservoirs Theory of Geophysical Data Processing Geology and Exploration of Hydrocarbon Deposits Mineral Deposits Exploration Technology and Technique Rock Destruction in Geological Exploration Drilling Machines and Equipment Operation and Repair of Geology-Prospecting Equipment Optimization in Geological Survey Activities Cleaning Agents Grouting Mixtures Survey and Well Special Services Control and Automation of Production Processes with Principles of In-Process Metering Water Source Well Engineering and Repair CONTACT INFORMATION: Academic Curriculum Supervisor Ms Galina Georgievna Nomokonova Associate Professor of the Department of Geophysics. Tel.: +7(3822) portal.tpu.ru:7777/shared/n/nomokonova Institute site: tpu.ru/en Subject Area Units (Specified Electives) Geophysical Methods of Mineral Deposits Exploration Electric Exploration Gravity Prospecting Magnetometry Interpretation of Gravity and Magnetic Anomaly 47

48 Institute of Natural Resources Master s Degree Programme Geology Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: The development of advanced training of up-market world class professionals and teams in the field of solid mineral deposit geology. This is expected to be instrumental in resolving the deficiency in highly skilled geologists both in Russia and in the world. It is anticipated that these experts will be trained to perform their work in view of modern economic relations. It will assist in the development of world information resources and high-end technologies. TRAINING OUTCOMES Competences gained: Knowledge and thorough understanding of generalization methodology of results obtained in the context of previously stored scientific knowledge; Knowledge of regulatory documents that govern organization of engineering and manufacturing geological exploration efforts (in accordance with Master s Programme Academic Curriculum orientation); Theoretical knowledge related to feasibility study preparation of deposit development conditions for selective detailed elaboration areas; Knowledge of collection, analysis and generalization methodology of geological, geochemical, geophysical and other file data. It includes knowledge of fundamental prognostic and exploration methods of various geologic mining deposit types; Knowledge of fundamental survey methods and procedures in geological exploration and methodology of new elaboration methods; Knowledge of ore production and processing fundamental techniques; Knowledge of management activity methods, regulatory documents that govern the organization of engineering and manufacturing activities; Creative use of fundamental and applied course units of Master Academic Curriculum special disciplines knowledge in their research efforts and in engineering and manufacturing work; Ability to formulate problems, tasks and scientific methods; Ability to acquire new established facts based on scientific analysis of empirical data; ability to draw conclusions and practical guidelines based on representative and original results of research efforts; Ability to calculate reserves and to assess resources; Ability to create geological and geochemical deposit models, models for reserve confidence assessment and standard parameters selection models; 48

49 Institute of Natural Resources tpu.ru Ability to perform calculations in the course of feasibility study preparation for selective detailed elaboration areas standards; Ability to collect, analyze and generalize file materials of geological, geochemical, geophysical and other data; Ability to develop prognostic and exploration methods of various geologic mining deposit types; ability to formulate geological and prospecting tasks; Ability to use existing survey methods and procedures and the ability to develop new ones; Ability to use knowledge of ore production and processing fundamental techniques with respect to specific deposit types; Command of scientific cognition framework methodology in studies of various levels of matter, space and time organization; Skills in up-to-date methods of data acquisition and processing; Skills in methods of business event planning with regards to professional activity management; experience in searching and selection of most profitable production techniques and ore opening methods in deposits; Knowledge of expert and analytical activity fundamentals. It includes knowledge of prognostic and exploration methods; Foreign language skills at professional communication level. CAREER OPPORTUNITIES Sphere of Master s Degree students professional activity: academic and industry sponsored research establishments connected with solution of geoecological issues; geological establishments, geological survey and extracting firms and companies involved in prospecting and extraction of mineral stock: establishments of secondary vocational and higher vocational education. Professional activities of Geology Master Programme include research, design and production, auditing and expert work, administrative and pedagogical work associated with geology and with the use of mineral resources. The programme graduates become in-demand top-ranked specialists both in scientific and production geological establishments and extracting companies in Russia and in the countries of the Commonwealth of Independent States. Graduates will be able to work as mining and geological engineers in production companies and they have career growth prospects. Alternatively, they will be able to work in research area as research engineers and junior research scientists. They may work as teaching assistants in the higher vocational education system. Master s programme graduates may pursue a PhD programme. COURSE STRUCTURE Core units Contemporary Issues of Economics, Engineering and Management in the Field of Geological Prospecting and Subsurface Management. Computer Technologies in Geology Philosophical and Methodological Issues Principles of Scientific Work Foreign Language for Specific Purposes History and Methodology of Geological Sciences Contemporary Issues in Geology Hydrodynamics of Fluid Systems and Simulation of Hydrodynamic Processes Metasomatism and Ore Formation Geochemistry of Elements and Processes Geophysical Methods and Data Interpretation in Exploration and Production of Mineral Deposits Lithology Rational Prediction and Prospecting Technique and Geological and Economic Assessment of Mineral Deposits Subject Area Units (Specified Electives) Geology of Radioactive Raw Materials Mineralogy and Research Methods of Radioactive Ores Industrial and Genetic Deposit Types of Radioactive and Rare Elements. Metallogeny. Radioactive Elements in the Environment and Issues of Radioecology. Drilling Technology of Production Wells in Uranium Deposits Development by Method of Underground Leeching Geotechnology of Uranium Ores Production Principles of Nuclear Raw Materials Processing Geology of Mineral Deposits Physical Research Methods of Rocks and Ores Geoinformation Systems Geodynamics and Minerageny Petrology of Plutonic and Metamorphic Rocks Remote Sensing Methods of Mineral Deposits Prospecting Geochemical Methods of Mineral Deposits Prospecting CONTACT INFORMATION: Master s Academic Curriculum Supervisor Mr. Leonid Petrovich Rikhvanov Doctor of Geological and Mineralogical Sciences, Professor of the Department of Geoecology and Geochemistry Tel. / fax +7(3822) , е-mail: [email protected] сайт института: tpu.ru/en 49

50 Institute of Natural Resources Ecology and Wildlife Management Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: Training programme of graduates in interdisciplinary research activities to solve industry-specific, regional, national and global environmental issues associated with wildlife management and environmental protection; training of graduates in project efforts in environmental impact assessment, ecological monitoring and wildlife management; training programme of graduates who are competitive experts on the Russian labour market in ecology and wildlife management; training programme of graduates in expert, analytical and auditing activities, training programme of graduates in organizational and management work in the course of professional interdisciplinary. It includes international teamwork; training programme of graduates in environmental audit and environmental certification. Graduates are expected to be familiar with international environmental quality standards. They also must be ready for self-training and continuous self-improvement. TRAINING OUTCOMES Competences gained: knowledge of state-of-the-art computer technologies applied during geographic information acquisition, storage, processing, analysis and transmission; capability for independent use of state-of-the-art computer technologies to resolve research problems, engineering and manufacturing problems in the course of professional activities; skills in evaluation methods of material representation and selection criteria in quantitative research, skills in statistical approach to comparing obtained data and in determining regularities; foreign language skills which enable students to work in international teams; skills in design basis, expert and analytical activity and research efforts with the use of state-of-theart approaches and methods; the use of devices and computer systems in accordance with Academic Curriculum Master s Degree programme; skills in international environmental quality standards; capability to formulate problems, tasks and methods of research studies; capability to obtain new reliable facts on the basis of observations, experiments, empirical data research analysis; ability to annotate scientific work, to perform analytical reviews of accumulated data in the world science and in production activity; ability to generalize obtained results in the context of previously accumulated scientific knowledge; ability to formulate conclusions and practical recommendations on the basis of representative and unconventional results of studies; capability to develop environmental protection measures, practical recommendations on environmental protection and sustainable development assurance; ability to work in the field of environmental audit and environmental certification; the capability to develop competent action plans for environmental audit activities, supervision of environmental requirements compliance and environmental management of production processes; capability to perform impact evaluation of facilities to be constructed or other anthropogenic activity types on the environment; the ability to develop standard environmental protection measures; capability to perform impact evaluation of planned work on the environment, the ability to diagnose environmental protection issues; teamwork ability and capability to gain experience in managing domestic and international projects; deep knowledge of theory and research methodology 50

51 Institute of Natural Resources tpu.ru in the field of environmental studies and monitoring. It includes their application skills for wildlife management optimization. Possible work placement opportunities: Under the existing course structure, over their studies Master s Degree students must undertake 3 internships. They include research industrial experience, research project and teaching practice. Research industrial experience is gained in outside organizations (companies located in the city of Tomsk and the Tomsk region, departments of natural resources and environmental protection, enterprises located in the Russian Federation and in former Soviet Republics. For example, ОАО Tomskgeomonitoring, the Committee for Environmental Protection and Natural Resources, the city of Novokuznetsk, Kemerovo region, ОАО TomskNIPIneft, city of Tomsk, ООО Abaza-Erergo, the Republic of Khakassia, ZАО PIRS, the city of Omsk, the Municipal Unitary Enterprise Minusinsk municipal service, the city of Minusinsk, Krasnoyarsk territory, ООО Bashneft-Bureniye, the city of Ufa, the Directorate of the Federal Service for Supervision of Natural Resource Usage for the Altai Territory and the Republic of Altai, the city of Gorno-Altaisk, ZАО Eastern petrochemical company, the city of Nakhodka, the Primorye Territory, Rusimperial Group, the city of Tomsk, ОАО Tomskgazprom, the city of Tomsk, ООО UPTO-TGS, the city of Tomsk et al). Master s Degree students implement their Research Project at the University departments and laboratories. They have the required human and scientific engineering resources. Teaching Practice of Master s Degree students is organized within the framework of the general concept of Master s Degree training. The major idea of the practice which must be consistent with its content lies in the generation of engineering skills of students. These skills are associated with teaching activities. They also include design, engineering, organization and training management activities. It is expected that in the course of research industrial experience, research project and teaching practice Master s Degree students will generate and develop their strategic vision, situation vision and the ability to manage groups of people. CAREER OPPORTUNITIES Employment areas: Establishments of the Ministry of Natural Resources of the Russian Federation, the Ministry of Energy of the Russian Federation, the Ministry of the Russian Federation for Civil Defense, Emergency Management and Natural Disasters Response, the Russian Federation State Committee for Construction, Architectural and Housing Policy; Research establishments connected with the solution of environmental issues and Wildlife Management; Geological establishments, geological survey and extracting firms and companies which perform exploration, prospecting and extraction of mineral stock; Establishments involved with ecological monitoring and solution of environmental issues; Establishments of the system of higher education, secondary vocational education and general secondary education. Types of professional activities: research, project and production, auditing, administrative; pedagogical. Graduates of this educational programme become research engineers, research workers and specialists of ecological and environmental protection offices. They also work in leading global companies connected with production, development and operation of mineral deposits. COURSE STRUCTURE Core units Foreign Language for Specific Purposes Computer Technologies and Statistical Approach to Ecology and Wildlife Management. Philosophical and Methodological Issues of Science and Engineering Radioecology Isotope Geochemistry Issues of Environmental Geology Contemporary Issues of Ecology and Wildlife Management. Environmental Protection International Cooperation Sustainable Development Geochemistry of Fuel and Energy Industry Soil Geochemistry Nuclear Physical and Electron Microscopic Methods of Substance Study Geochemistry of Living Substance Occurrence Forms of Chemical Elements in Natural and Anthropogenic Environments Waste Products and Environmental Risk Subject Area Units (Specified Electives) Environmental Problems Environmental Geochemistry Medical Geology Theory and Methods of Contemporary Monitoring of Environmental Conditions CONTACT INFORMATION: Master s Academic Curriculum Supervisor: Ms Nataliya Vladimirovna Baranovskaya Doctor of Biological Sciences, Professor, the Department of Geoecology and Geochemistry. City of Tomsk, prospect Lenina, dom 2/5, room 433, Tel. / fax: +7(3822) е-mail: [email protected], Institute site: tpu.ru/en 51

52 Institute of Natural Resources Management Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: profound task oriented theoretical training of Master s Degree students in Economics and Management of oil and gas enterprises. It also includes knowledge of Basic Petroleum Engineering and Basic Petroleum Law; theoretical knowledge integration of Master s Degree students and their practical skills in organization and implementation of applied projects and programs in leading oil and gas companies, professional qualification improvement of graduates in compliance with specific requirements that reflect contemporary global energy market trends, generation of practical skills of Master s Degree students in order to apply computers as management tools in oil and gas industry enterprises, graduates readiness for viable solution of organization and management tasks. It also includes solution of financial and economic, analytical and research tasks in economics and management of oil and gas sector enterprises. TRAINING OUTCOMES Competences gained: capability to manage companies, business units, groups (teams) of employees, projects and pipeline systems in oil and gas sector, capability to develop corporate strategy of oil and gas enterprises, ability to use contemporary management methods of oil and gas enterprises corporate finance for strategic objectives solution, capability to develop oil and enterprise development programmes, oil and gas enterprise change programmes and to ensure their implementation, capability to use quantitative and qualitative methods to perform research activities and to manage business processes of oil and gas enterprises, skills in economic analysis methods of trade agents and markets behaviour in oil and gas sector, skills in strategic analysis methods of oil and gas enterprises, capability to prepare analytical materials for managing business processes of oil and gas enterprises and their efficiency assessment, ability to generalize and critically assess results obtained by Russian and international researchers; ability to reveal and to formulate pressing scientific problems. CAREER OPPORTUNITIES Employment areas: organization and management work, analytical, research and pedagogical activities. Types of companies: Establishments of any organizational legal form 52

53 Institute of Natural Resources tpu.ru (commercial, non-profit, State, municipal enterprises) where graduates work as performers or managers of various management department branches; State administrative and municipal administrative bodies; Companies where graduates create and develop their own business; Research establishments connected with solution of management problems; Agencies of higher and further vocational education; Work in positions that require professional economy knowledge in oil and gas industry and oil and gas enterprise management. COURSE STRUCTURE Core units Modern Management Foreign Language for Specific Purposes Cross-Cultural Management Philosophical and Methodological Issues of Science and Engineering Managerial Economics Modern Strategic Analysis Organization Theory and Organizational Behavior Corporate Finance Research Methods in Management Student Research Teaching Practice Subject Area Units (Specified Electives) Economy and Management at the factory (In the field of oil and gas) Management Accounting and Audit in Oil and Gas Industry Basic Petroleum Industry Innovation Management in Oil and Gas Industry Management in Oil and Gas Industry Marketing and International Trade in Oil and Gas Industry Principles of Natural Resources Law Resource Efficiency Management CONTACT INFORMATION: Academic Curriculum Supervisor Ms Irina Evgenievna Nikulina Doctor of Economics. Tel.: +7(3822) site: isht.tpu.ru. Subject area supervisor Mr Grigory Yurievich Boyarko, зthe Department of Natural Resources Economics Chairman, Doctor of Economics, Professor Tel.: +7(3822) , Institute site: tpu.ru/en 53

54 Institute of Natural Resources Petroleum Engineering Master of Engineering and Technology Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: Training of highly skilled professionals in petroleum engineering. These specialists are expected to meet the requirements of state-of-the-art high quality production. They are capable of performing high level engineering, engineering and manufacturing activities in this field. These professionals are trained to perform organization and management activities in oil and gas interdisciplinary areas. It includes international teamwork. These professionals are anticipated to be capable of bearing responsibility for professional decisions consistent with environmental protection and in compliance with safety standards. They are also capable for continuous professional self-improvement and self-training. TRAINING OUTCOMES Competences gained: ability for rapid adaptation to work environment after university graduation in a changeable professional environment; readiness for personal development, self-improvement, career development. It also includes teamwork skills. capability and readiness to master and use new technologies in practical work. CAREER OPPORTUNITIES Professional activity of Master s Degree students extends to fuel power production segment. It includes the development and exploitation of oil and gas fields and hydrocarbons transportation and storage. Russian oil and gas enterprises, design and research establishments use services these professionals. The companies in question include ОАО «АК Transneft, ОАО Gazprom, ОАО Giprotruboprovod, ООО Sibtruboprovodstroy, ОАО Tomskneft VNK, ОАО NK Rosneft, ОАО TomskNIPIneft, ОАО KrasnoyarksNIPIneft, ООО Siam-Engineering, NK Schlumberger, NK TNK-BP, Strezhevoy affiliate of ZAO Siberian service company, Strezhevoy affiliate of ООО Service geophysical company, ZАО Neftepromburservice, ООО Tomskburneftegaz, Drilling service company GRAND, ООО RusImperialGroup, ОАО Surgutneftegaz, Nefteyugansk affiliate of ZАО Siberian service company, Nefteyugansk affiliate of ООО Service geophysical company. Graduates are trained to perform work which requires profound background and professional expertise in the following areas: research, engineering activities, engineering and manufacturing, organization and management activities.. 54

55 Institute of Natural Resources tpu.ru COURSE STRUCTURE Core units Methodological Problems of Science in Oil and Gas Sector General Theory of Dynamic Systems Economics and Management of Oil and Gas Production. Technical end Economic Analysis Mathematical Simulation in Problems of Oil and Gas Industry. Methods of Mathematical Physics Oil and Gas Industry Design Techniques and Project Management. CAD Systems Information Systems. Field Development Management Oil and Gas Engineering Processes Management Elective units: Foreign Language for Specific Purposes Oil and Gas Well Drilling Technology of Oil and Gas Fields Development Pipeline and Oil-Gas Storage Engineering and Working Heat Exchange in Oil and Gas Production Geosteering in Oil and Gas Engineering Technology of Oil and Gas Production Engineering Service and Repair Work Management of Oil and Gas Equipment Subject Area Units (Specified Electives) Reliability of Gas and Oil Pipelines and Storages Pipeline and Oil-Gas Storage Engineering and Working CAD of Pipeline Transfer Systems Hydrodynamics of Oil and Disperse Systems Pipeline Transfer Equipment Monitoring Stressed-Deformed State of Pipeline Gas and Oil Pipes and Storages Equipment Endurance Capability Quality and Test Control of Gas and Oil Pipes and Storages Long-Hole Construction Complicated by Geological Factor Oil and Gas Well Drilling Tendencies of Technical Upgrade of Rock Destruction Tools Drilling Fluids Fluid Mechanics in Drilling Prevention and Control of Problems and Accidents Cementing and Completion of Wells in Abnormal Operating Conditions Simulation Technology and Facilities at Complex Geological Factors Oil-and-Gas Deposit Development and Operation Technologies of Oil and Gas Fields Development Heat Exchange in Oil and Gas Production Energy State Control of Productive Strata Theory and Practice of Oil and Gas Production Control Processes Oil and Gas Production Technologies in Abnormal Operating Conditions Hydrodynamic Simulation of Oil and Gas Fields Methods of Hydrodynamic Monitoring of Oil and Gas Fields Development Process Basis of Oil and Gas Facilities Construction CONTACT INFORMATION: Academic Curriculum Supervisor Mr. Alexander Tikhonovich Roslyak Doctor of Engineering Science, Professor of the Department of Geology and Oil Field Development, the Institute of Natural Resources Tel.: +7(3822) , Institute site: tpu.ru/en 55

56 Institute of Natural Resources Master Chemical Engineering Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: The key feature of graduates is their ability to apply knowledge in methods of synthesis, structure analysis and properties of substances. It includes essential research work skills, abilities in organization of research and engineering and manufacturing efforts; ability to work in small and medium business enterprises, major and international companies involved in development of engineering processes and production of various advanced materials. TRAINING OUTCOMES Competences gained: capability for improving chemical technology processes, manufacturing application of state-ofthe-art technologies, their cost-benefit analysis and innovation technology risks; capability for expert studies of properties and real structure of chemical engineering materials. It includes independent highly-skilled operation of state-of-the-art equipment and instruments within selected research areas; ability to create and implement research and technical projects related to various chemical production types with regard to unique features of raw materials and maximum production efficiency. CAREER OPPORTUNITIES Employment areas: methods and techniques for producing substances and materials by means of physical, physico-chemical and chemical processes. It includes production of various applications items; establishment, manufacturing application and operation of industrial production of inorganic substances, construction materials, basic and fine organic synthesis products, polymer materials, products of treating and processing of oil, gas and solid fuel and pharmaceuticals. Master s Degree students who underwent this training programme have career opportunities in high technology knowledge intensive industries in chemical, petrochemical and biotechnological companies, in COURSE STRUCTURE Core units Basic part Philosophical Issues of Science and Engineering Economic Analysis and Production Management Foreign Language for Specific Purposes Mass Transfer Processes in Systems with Solid Phase oil and gas companies, research centres and design institutes. They include OАО Samaraneftekhimproyekt, Scientific and Production Centre Polyus, ООО NIOST, Academician E. I. Zababakhin Applied Physics All-Union Research Institute Russian Federal Nuclear Centre, the city of Snezhinsk, Research and Production Company Polymer-Compound, ООО Tomskneftekhim, ООО Sibmetakhim, ОАО Tomskgazprom, ОАО KINEF, the city of Kirishi, Leningrad region, ООО Tomskneftepererabotka, ОАО Tomskneft, ООО Tomsk rubber footware manufacturing plant, ZAO Sibkabel, the city of Tomsk, ОАО Yugrgagazpererabotka, the city of Yugra, the Khanti-Mansi Autonomous District, ОАО Farmstandart-Tomskkhimfarm, ОАО Organika, the city of Novokuznetsk, Kemerovo region, ОАО Dalkhimfarm, the city of Khabarovsk, Omsk oil processing combine, Achinsk oil processing plant, Surgut oil processing combine, Cherepovets metallurgical combine, Berezniki chemical combine, Angarsk oil processing combine, Kemerovo production enterprise Azot, ОАО Holding company Siberian cement, the city of Kemerovo, АО Glass company SAF, the city of Almaty, the Republic of Kazakhstan, Federal State Unitary Enterprise Kombinat Elektrokhimpribor, the city of Lesnoy, Sverdlovsk region, ОАО SiburTyumenGaz, ОАО TomskNIPIneft VNK, ООО RN-Primorsk Oil Processing Plant, ООО Gazpromneft- Vostok, Schlumberger Limited etc. Master s Degree students may also pursue a PhD Degree. Career opportunities include: process engineer, architect engineer, production section manager, design engineer, research employee, teacher. Automation of Chemical Technology Processes Theory and Applied Aspects of Biopharmaceutics Student Research Activity Teaching Practice Research Industrial Experience Research Project Master s Graduation Thesis Variable part 56

57 Institute of Natural Resources tpu.ru Theoretical and Experimental Research Methods in Chemistry Basic Research Methods in Organic Chemistry Basics of Microbiology, Biochemistry and Pharmacology Basic Research Methods in Inorganic Chemistry Optimization of Chemical Technology Processes Innovative Development of Chemical Engineering of Organic Substances Innovative Development of Chemical Engineering of Inorganic Substances Subject Area Units (Specified Electives) Chemical Engineering of Fuel and Gas Scientific Basics of Industrial Catalysis Oil and Gas Field Technology Processing of Raw Hydrocarbons Introduction to Chemmotology Production Design and Standard Equipment for Natural Energy Carriers Processing Chemical Engineering of Carbons Mathematical Simulation of Fossil Fuels Processing Chemical Engineering of High-Molecular Compounds Processing of Polymer Materials Experimental Research Methods in Polymerization and Polymer Structure Polymer Technology Production and Processing Equipment for Polymer Materials Polymer Composites Quality Management System and Quality Control for Polymer Material Products Chemical Engineering of Organic and Petrochemical Synthesis Experimental Research Methods in Organic Matters Structure Basic and Organic Synthesis Technology Petrochemical Processes Engineering Catalysis in Organic Synthesis Processing Equipment for Organic Synthesis Quality Management System and Quality Control for Organic Synthesis Products Chemical Engineering of Bioactive Substances Scientific Basics of Organic Synthesis Medicinal Chemistry Experimental and Theoretical Research Methods in Fine Organic Synthesis Industrial Production of Medicines Modern Parmaceutical Engineering Selected Chapters of Organic Chemistry Chemical Engineering of Inorganic Matters and Materials Catalysis and Catalyst Technology Basic and Inorganic Synthesis Technology Technology of Mineral Fertilizers, Salts, Alkalis Minerals Processing for Chemical Production Machinery and Devices for Minerals Processing Crystallography, Mineralogy, Petrography Chemical Engineering of Refractory Nonmetals and Silicates Physicochemical Basics of Ceramics and Refractory Ceramics Technology Physicochemical Basics of Binding Material Technology Physicochemical Basics of Glass and Glassceramics Technology Engineering Petrology Selected Chapters of Physical Chemistry of Refractory Non-Metals and Silicates Nanomaterials Physics and Chemistry Fine and Building Ceramics Technology Cement Technology Glass and Glassceramics Technology Synthesis and Phase Formation Kinetics of Refractory Nonmetals and Silicates Biotechnological and Pharmaceutical Production Engineering Resource Efficiency of Pharmaceutical Production Modern Research and Control Methods of Pharmaceuticals Development and Registration Procedure of Pharmaceuticals Design Methods of Bioactive Substances Producers Industrial Engineering and Quality Management in Pharmaceutical Enterprises Genetic Engineering and Proteomics CONTACT INFORMATION: Academic Curriculum Supervisor Ms Lyudmila Ivanovna Bondaletova Candidate of Chemical Sciences, Associate Professor of the Department of Technology of Organic Substances and Polymer Materials Tel.: +7(3822) Institute site: tpu.ru/en 57

58 Institute of Natural Resources Energy-Efficient and Resource-Saving Processes in Chemical Engineering, Petrochemistry and Bioengineering Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: graduates receive research and design training in the fields of development of resource-saving, environmentally safe chemical engineering, petrochemistry and bioengineering technologies. graduates receive training in engineering, engineering and manufacturing, organization and management activities and in expert work. These efforts are expected to ensure implementation and efficient operation of global market competitive chemical engineering, petrochemistry and bioengineering technologies; graduates receive training in teaching activities which meet up-to-date higher professional education standards. TRAINING OUTCOMES Competences gained: capability for individual study of new methods of research techniques, readiness for professional work change in scientific and scientific and production areas; readiness for search, processing, analysis and arrangement of received scientific and technical information related to research topic, readiness for selection of procedures and facilities for assigned task solution, readiness to develop computational models and to perform their experimental verification; capability for engineering processes analysis in order to improve energy-efficiency and resource-saving indices, readiness for engineering process cost-benefit analysis and their environmental safety; capability to assess innovative and technological hazards in the course of production techniques implementation; capability to find optimum solutions in the course of product development in compliance with production quality, reliability, cost and environmental safety; capability to use state-of-the-art quality management systems in specific production conditions based on international standards; capability for design activity in professional sphere based on systematic approach and application of situation description and forecasting models; ability to perform qualitative and quantitative analysis of processes in their entirety and particular engineering phases, readiness for project innovative capacity assessment. CAREER OPPORTUNITIES Employment areas: creation, implementation and operation of energyefficient and resource-saving and environmentally 58

59 Institute of Natural Resources tpu.ru friendly production technologies of refinery products of oil, gas, solid fuel, basic mineral substances, basic synthesis products and specialty chemicals, microbiological synthesis, polymer materials, pharmaceuticals and food substances; development of industrial and domestic household waste management methods and secondary raw material resources management methods; Possible work placement oportunities: Master s Degree students who received this Programme training have career prospects in the fields of high technology and knowledge-intensive industries in chemical, petrochemical and biotechnological industry, in oil and gas sector companies, in research institutes and design organizations. Master s Degree students may also pursue their PhD Degree. Potential employers: OAO NK ROSNeft (city of Krannodar), OAO Samaraneftekhimproekt, KINEF (city of Kirshy), Surgut, Omsk and Achinsk oil refineries, Scientific and Production Center Noosfera (city of Tomsk), Tomsk Electronic Company, IKT-service (city of Tomsk), OOO Tomskneftekmimpererabotka, Angarsk oil refining combine, Kemerovo Prodction Assiciation Azot etc. Career opportunities: leading specialist, engineering department manager, process engineer, design engineer, production line manager. COURSE STRUCTURE Core units Philosophical Issues of Science and Engineering Economics and Production Management Additional Chapters of Mathematics Foreign Language for Specific Purposes Optimization and Organization Techniques of Energy- Efficient and Resource-Saving Processes of Chemical Engineering Systems Simulation of Engineering and Natural Systems Research Work Teaching Practice Research Industrial Experience Research Project Graduation Thesis Subject Area Units (Specified Electives) Processes and Devices of Chemical Technology Contemporary Issues of Chemical Engineering, Petrochemistry and Bioengineering Automation of Chemical Technology Processes, Petrochemistry and Bioengineering Theory of Energy Saving and Resource Saving Mathematical Simulation of Multi-Component Chemical and Mass-Exchanging Processes Computer Simulation Systems in Chemical Engineering Principles of Mathematical Simulation of Chemical Engineering Systems Technology of Oil Processing, Natural and Associated Gas Engineering Design and Standard Equipment of Natural Energy Carriers Processing CONTACT INFORMATION: Academic Curriculum Supervisor Ms Marina Anatolievna Samborskaya Candidate of Chemical Sciences, Associate Professor of the Department of Chemical Engineering of Fuels and Chemical Cybernetics. Tel.: +7(3822) [email protected], Institute site: tpu.ru/en 59

60 Institute of Natural Resources Environmental Engineering and Water Resources Management Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: this programme incorporates education programmes in the fields of hydrometeorology, hydrogeology and engineering geology. It makes it possible to train skilled professionals who have all the required knowledge and skills in the fields of engineering and geological research, engineering and environmental survey, engineering and hydrometeorological survey, water resources survey and their quality in order to provide people, industrial and agricultural sectors with water in sufficient quantity and required quality. TRAINING OUTCOMES Competences gained: Capability to determine initial data for environmental engineering and water resources management objects design, to supervise surveys on condition assessment of natural and combined natural and man-made entities; Capability to use knowledge of design techniques of engineering structures, their structural components, techniques of engineering evaluations required for the design of systems, objects and structures for environmental engineering and water resources management; Readiness to study, to analyze and compare domestic and international experience on the design and implementation of projects on environmental engineering and water resources management; Capability to use knowledge of decision making techniques in the course of structure formation of natural and manmade entities, analysis methods of environmental, economical and technological efficiency in the course of design and implementation of projects of environmental engineering and water resources management. It also includes projects of water natural state remediation and remediation of other natural objects; Capability to assure the required quality compliance of environmental engineering and water resources management projects with international and Russian regulations and standards; Capability to make professional decisions based on knowledge of technological processes of environmental engineering and water resources management in construction and operation of environmental engineering and water resources management objects; To use knowledge of water use legislation, land use legislation and guidance on water and land resources conservation for their compliance verification in the course of water management, land use management and natural environment development; Capability to assure the required quality of work during construction and operation of environmental 60

61 Institute of Natural Resources tpu.ru engineering water resources management objects; Capability to set research goals and objectives, to apply knowledge on research techniques in the course of natural processes studies and during survey activities, in assessing and monitoring water objects condition, environmental engineering and water resources management objects and the impact of human-made activities on the environment; Capability to develop and maintain experimental data bases, to search and select methods and models in order to solve research and technology tasks, to compare and analyze obtained research results, to implement mathematic simulation of natural processes; Professional application of state-of-the-art scientific and technical equipment and instruments. It also includes professional computer software tools; Capability to collect, generalize and to analyze research and technical information, to draw and formulate conclusions and guidelines, to deploy research and development results and to organize rights protection of intellectual property objects; To perform research activities, to acquire, process and analyze data of field studies and laboratory studies, surveys. It includes the assessment and monitoring of environmental engineering and water resources management objects. CAREER OPPORTUNITIES Spheres of activity: design and survey, industrial and management, research work in the field of amelioration, protection and recultivation of lands for different purposes; creation of multi-purpose water economy systems; protection and restoring water objects; water supply, draining and treatment of waste water, irrigation, environmentally friendly infrastructure development, creation of ecological infrastructure on lands for different purposes with regard to innovative technologies and methods, principles of rational use of natural resources and sustainable development. Types of companies: oil and gas companies of the Russian Federation, mining companies, environmental bodies belonging to the Ministry of Natural Resources and Ecology of the Russian Federation and administrations of constituent entities of the Russian Federation. Positions to be held: manager / corporate employee of design and survey companies, water facilities operation companies, research organizations in the fields of geology, hydrology and hydrogeoecology. COURSE STRUCTURE Core units Philosophical Issues of Science and Engineering Mathematical Simulation of Processes in nature Componentse Subject Area Units (Specified Electives) Environmental Engineering Survey Management of Natural and Man-Made Systems Study of Environmental Engineering and Water Resources Management Systems Environmental Management Foreign Language for Specific Purposes Environmental Protection Theory Geoinformation Systems Wildlife Management Economics Hydrological Design River Hydraulics and River Bed Evolution Hydrogeological Design Landscape Geochemistry Engineering Surveys in the Area of Environmental Engineering Engineering and Geological Research Engineering and Environmental Survey Engineering and Hydrometeorological Survey Financial Estimates for Ecological Monitoring Surveys Hydrogeochemistry Weathering and Soil Formation Topographical Surveys Construction Climatology CONTACT INFORMATION: Academic Curriculum Supervisor Mr Oleg Gennadievich Savichev Doctor of Geographical Sciences, Professor Tel.: +7 (3822) [email protected] Institute site: tpu.ru/en 61

62 62 Institute of Physics and Technology

63 Institute of Physics and Technology tpu.ru INSTITUTE OF POWER ENGINEERING The Institute of Power Engineering (IPE) is a leading research and educational centre of Russia in the field of power energy. The Institute trains highly skilled professionals for power, thermal energy and electrical engineering. The graduates of the IPE have in your background the optimal ratio of theoretical knowledge and practical skills for modern power plants operating, which ensures their high professionalism and guarantees employment. Today IPE has more than 150 existing contracts with enterprises and research organizations located throughout the territory of the Russian Federation from the Far East to Kaliningrad and in the CIS countries. Together with major Russian companies (OJSC «System Operator EES», OJSC «Federal Grid Company», RAO ES of the East, etc.) at the Institute the number of tailor-made master s programs for training highly qualified specialists for these organizations are implementing. Accumulated by the IPE experience ensures readiness of the training process to the new socio -economic conditions, to reforming the electric power industry as well as actually the system of higher technical education. Graduates of the IPE TPU successfully work at CJSC «Energomash Uralelectrotyazhmash» (Ekaterinburg, Russia), at the Kalinin nuclear power plant ( Tver region, Udomlja city, Russia), LTD «Gorseti» (Tomsk city, Russia), at the Electrotechnical Company of St. Petersburg, at the branch of OJSC «FSC EES» Tomsk unit of the Trunk Electric Grids (TEG). The faculty of the IPE: 251 research and pedagogical employees, including 145 PhDs, 32 higher PhDs, 2 members of the RAS. 63

64 Institute of Power Engineering Bachelor s Degree Programme Heat and Power Engineering and Heat Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: the ranking of the Ministry of Education and Science of the Russian Federation always lists it among the top programmes; employment is guaranteed. TRAINING OUTCOMES Competences gained: readiness to introduce resource efficient technologies into thermal and electrical generation processes; advanced knowledge of heat and power optimization and technoeconomic tasks solution methods applying up-to-date information systems; developed skills in nuclear and thermal power plants equipment design; advanced professional knowledge of environmental protection technologies at thermal power stations; advanced competence in a foreign language for specific purposes. CAREER OPPORTUNITIES Employment areas: industrial activities connected with thermal energy transmission, distribution, conversion and application and energy flows management, as well as design and production of elements, equipment and systems implementing those processes. Potential employers: thermal power research and development institutes, local energy companies and joint-stock companies, engineering companies and the companies of large corporations and holding companies such as the Institute of Thermal Physics at the Siberian division of the Russian Academy of Sciences, research and development institutes for the fuel and energy complex, Atomenergoprojekt research and development institutes, Energomash (UK) Limited, Rosenergoatom federal state unitary enterprise, Tomsk state district power station-2, Tomsk Thermoelectric Plant-3, Kuzbassenergo open joint-stock company and Belovskaya state district power station. Career opportunities include: engineers, foremen, mechanics, unit operators. The degree qualifies the graduates to pursue further study with a Master s degree on completion of entrance examinations for Heat and Power Engineering and Heat Engineering. 64

65 Institute of Power Engineering tpu.ru COURSE STRUCTURE Core units Foreign Language History Philosophy Economics Law Studies Mathematics Physics Chemistry Environmental Science Information Technologies Mathematical Modeling and Optimization Methods Materials Science and Engineering Materials Alternative and Renewable Energy Sources Fluid Dynamics Mechanics Heat Mass Exchange Engineering Thermodynamics Electrical Engineering and Electronics Certification, Technical Metrology and Thermal Processes Automation Energy Saving in Heat and Power Engineering Introduction to Engineering Applied Systems Analysis Environmental Protection Technologies at Thermal Power Stations Thermal and Nuclear Power Plants Industrial Management and Engineering Subject Area Units (Specified Electives) Heating Power Plants Boiler Plants and Steam Generators Thermal and Nuclear Power Plants Turbines Thermal and Mechanical Equipment and Auxiliary Facilities of Power Plants Steam Turbine and Combined Cycle Gas Turbine Units Industrial Heat and Power Engineering Boiler Plants in Heat Supply Systems Industrial Heat Supply Sources and Systems Heat and Mass Exchange Equipment Heating, Ventilation and Conditioning Systems Design and Operation Workflow and Production Automation in Heat and Power Engineering and Heat Engineering Automatic Control Theory Automation and Metrology Equipment and Devices Logical Management and Protection Microprocessor Controllers and their Programming CONTACT INFORMATION: Academic Curriculum Supervisor Alexandra M. Antonova PhD, associate professor of the Department of Nuclear and Thermal Power Plants of the Institute of Power Engineering of TPU Tel.: +7 (3822) , portal.tpu.ru/shared/a/anton 65

66 Institute of Power Engineering Electric Power Engineering and Electrical Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: the course is designed in accordance with current industrial tasks; students participate in international academic exchange programmes. TRAINING OUTCOMES Competences gained: ability to apply standard methods of analysis and automation facilities for electric power engineering and electrical engineering elements, systems and objects design in compliance with technical requirements; ability to apply raw material, energy, and other resources conservation methods in the electric power engineering and electrical engineering industries; ability to conduct experiments applying specified methods and processing and analyzing the obtained results as well as to apply standard testing methods to electric power engineering and electrical engineering electrical equipment, objects, and systems; ability to apply advanced power efficient and environmentally-friendly safety technologies. CAREER OPPORTUNITIES Employment areas: engineering and design and production in the sphere of electric energy generation, transmission, distribution, conversion and application. Potential employers: generating companies and main and local power transmission lines enterprises. Career opportunities include: engineers, foremen, wiremen, electricians, fitters and operators. 66

67 Institute of Power Engineering tpu.ru COURSE STRUCTURE Core units Mathematics Physics Descriptive Geometry and Engineering Graphics Foreign Language Theoretical Electrical Engineering Electric Machines Power Supply Power Stations and Substations Power Grids Protection Relay and Automation of Power Grids High-Voltage Engineering Metrology, Standardization and Certification Electron Technology and Microtechnology Electromagnetic Compatibility Power Electronics Automatic Control Theory Electric and Electronic Devices Electric Drive Subject Area Units (Specified Electives) Protection Relay and Automation of Power Grids Protection Relay of Electric Systems Energy Grid Control Systems Elements of Automatic Mechanisms in Power Systems Mode Control in Power Grids Based on Power Electronics Power Plants Running and Operational Modes of Electric Equipment Protection Relay of Power Plant Equipment Energy Generation Technology at Heat Power and Water Power Plants Elements of Automatic Mechanisms in Power Systems High-Voltage Electric Power Engineering and Electrical Engineering High-Voltage Test Facilities and Measurements Insulation of High-Voltage Electrical Equipment Lightning Protection Physics of Condensed Medium Breakdown Power Grids Modes and Reliability of Power Systems Automatic Mode Control of Power Systems Running, Diagnostics, and Repair of Electric Equipment Design Basis of Power System Facilities Power Supply Power Supply Converters Calculation and Design of Industrial Power Supply Automatic Control Systems for Electric Power Industrial Facilities Tune-up and Running of Electric Equipment Electromechanics Production Technology of Electric Machines Design and Construction Principles of Electric Machines Power Motor-Generator Tune-up and Running of Electric Machines Basics of CAD Systems in Electrical Engineering Electric and Electronic Devices Electric and Electronic Devices of Computerized Systems Production Technology of Electric Devices Theory and Design Principles of Electric and Electronic Devices Setting-up and Running of Electric and Electronic Devices Microprocessors Application for Electric Devices Electrical Insulation, Cable and Capacitor Engineering Chemical Engineering of Dielectric Materials Principles of Electrical Insulation and Cable Engineering Electrical Insulations Engineering Test Modes of Electrical Engineering Materials and Products Engineering Processes in Electrical Insulation Technology Electric Drives and Automated Systems Elements of Computerized Systems Electric Drive Control Systems Advanced Control Systems for Industrial Devices Microprocessors Application for Electric Drives Tune-up and Diagnosis of Industrial Electric Drives Electrical Equipment and Facilities for Enterprises, Organizations and Institutions Electric Power Consumers and Energy Saving Consumer Power Supply and Modes Industrial Electrical Equipment Microprocessor-Based Software and Control Systems Tune-up and Running of Electric Equipment CONTACT INFORMATION: Academic Curriculum Supervisor Mr Alexander V. Glasachev PhD, associate professor of the Department of Electric Drives and Equipment of the Institute of Power Engineering of TPU Tel.: +7(3822) , enin.tpu.ru 67

68 Institute of Power Engineering Power Machinery Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: scientific and technological potential and practical experience of leading Russian and foreign universities, research institutes and energy complex enterprises are widely used in training; guaranteed employment. TRAINING OUTCOMES Competences gained: knowledge of basic physical, technical, and engineering processes in power machines, devices, and facilities; knowledge of separate types of power units design, their operation principles, running characteristics, and production engineering; knowledge of standard engineering processes and facilities for power equipment manufacturing; knowledge of principles for designing and engineering boilers, combustion chambers, nuclear power plants steam generators, and heat and mass exchange equipment of various purposes; transferable skills in heat and power equipment testing, maintaining, repairing, and installing; working knowledge of design feasibility study methods and production management principles in power machinery engineering and heat and power engineering; transferable skills in power equipment tests analysis and metrology, in testing and research equipment operation, and in obtained data processing; working knowledge of standard methods of technical, economic, and environmental efficiency analysis of design and engineering development, manufacturing processes and equipment operation in the framework of the subject area in question. CAREER OPPORTUNITIES Employment areas: research, engineering and design and management in the sphere of heat energy generation, transmission, distribution, conversion and application, as well as design and production of elements, equipment and systems implementing those processes. Potential employers: Эpower machine-building companies, engineering companies, nuclear and thermal power stations, as well as installation, facility commissioning and repair organizations operating in the spheres of power engineering, oil and gas production, petroleum chemistry, and metal industry. Graduates secure positions in such companies as: PJSC EnergoMashinostroitelny Alliance (PJSC EMAlliance), JSC Energomash Corporation, JSC Sibenergomash, CJSC SibCOTES, JSC Far East Generation Company, Rosatom State Nuclear Energy Corporation, Rosenergoatom Concern, JSC Sibenergomontazh; Siemens, Mitsubishi, Alstom Concerns; Viessmann, Weishaupt, Deutsche Babcock Companies. Career opportunities include: boiler house operators, implementers, heat power engineers, design engineers, boiler equipment technicians, research workers. 68

69 Institute of Power Engineering tpu.ru COURSE STRUCTURE Core units Foreign Language Philosophy Economics History Business Economics Law Studies Foreign Language for Specific Purposes Mathematics Physics Informatics Chemistry Environmental Science Engineering Mechanics Information Technologies in Power Machinery Engineering Physicochemical Properties of Natural Fuels Geometric Simulation and Concepts of CAD System Mathematical Methods for Energy Technologies Natural Fuel Combustion Descriptive Geometry Engineering and Computer Graphics Materials Science Engineering Materials Material and Construction Mechanics Strength of Materials Theory of Machines and Mechanisms Machine Components and Design Principles Metrology, Standardization and Certification Electrical Engineering and Electronics Fluid Mechanics Thermodynamics Engineering System Control Basic Safety Steam-Boilers Methods of Environmental Protection Introduction to Engineering Reliability and Diagnostics of Power Equipment Components Basic Principles of Physicochemical Processes of Thermal Energy Generation Simulated Physical Processes and Design Objects Subject Area Units (Specified Electives) Nuclear Power Plants Boilers, Combustion Chambers and Steam Generators Boiler Plant Repair, TPP Equipment Installation Contemporary Boilers of Various Applications Industrial Water Treatment Hydrodynamics of Power Plants Nuclear Reactors and Steam Generators Boiler and Steam-Generator Engineering Fossil Fuel Combustion Technology CONTACT INFORMATION: Academic Curriculum Supervisor Ms Tatyana S. Taylasheva дassociate professor of the Department of Steam Generating Machinery Engineering of the Institute of Power Engineering of TPU Tel.: +7 (3822) enin.tpu.ru 69

70 Institute of Power Engineering Specialist s Degree Programme Nuclear Power Plants: Design, Operation and Engineering Engineer Duration: 5,5 years ACADEMIC CURRICULUM OUTLINE Programme features: the programme is designed to train specialists for nuclear power plants as well as for design and research institutes dealing with the development and design of various systems, equipment and nuclear power plants; the ranking of the Ministry of Education and Science of the Russian Federation always lists it among the top programmes; employment is guaranteed.. TRAINING OUTCOMES Competences gained: readiness to introduce resource efficient technologies into thermal and electrical generation processes at nuclear power plants; transferable skills in system analysis methods application to research into the processes in nuclear power plants equipment; basic skills in nuclear reactor operation having experience in operating TPU research reactor; skills to research into neutron and physical, and thermohydraulic characteristics of TPU research reactor core; developed skills in nuclear and thermal power plants equipment design; advanced professional knowledge of environmental protection technologies at nuclear power stations; transferable research skills; advanced competence in a foreign language for specific purposes. CAREER OPPORTUNITIES Employment areas: industrial activities connected with nuclear energy transmission, distribution, conversion and application and energy flows management, as well as design and production of elements, equipment and systems implementing those processes. Potential employers: thermal power research and development institutes, local energy companies and joint-stock companies, engineering companies and the companies of large corporations and holding companies such as The Institute of Thermal Physics at the Siberian division of the Russian Academy of Sciences, research and development institutes for the fuel and energy complex, Atomenergoprojekt research and development institutes, Energomash (UK) Limited, Rosenergoatom Federal State Unitary Enterprise, Tomsk State District Power Station-2, Tomsk Thermoelectric Plant-3, Kuzbassenergo open joint-stock Company and Belovskaya State District Power Station. Career opportunities include: engineers, foremen, mechanics, unit operators. 70

71 Institute of Power Engineering tpu.ru COURSE STRUCTURE Core units History Philosophy Foreign Language Sociology Economics Law Studies Russian Language and Speech Standards Cultural Studies Management and Marketing Production Management Marketing Mathematics Informatics Probability Calculation and Mathematical Statistics Discrete Mathematics Mathematical Physics Equations Physics Statistical Physics Nuclear Physics Neutron Transport Theory Nuclear Reactor Physics Kinetics of Nuclear Reactor Chemistry Environmental Science Nuclear Power Plant Design and Operation Fluid Mechanics Engineering Thermodynamics Thermodynamics Thermodynamic Cycles of Nuclear Power Plants Descriptive Geometry and Engineering Graphics Materials Science Electronic and Electric Engineering Metrology, Standardization and Certification Basic Safety Power Reactors Mathematical Simulation Methods of Physical Processes Engineering Mechanics Nuclear Power Plant Turbo Machines Steam Generators and heat Exchange Equipment Basics of Design and CAD Water Treatment at Nuclear Power Plants Nuclear Power Plant Automated Control Systems Introduction to Engineering Creative Project Student Academic Research Subject Area Units (Specified Electives) Nuclear Power Plant Design and Operation Nuclear Power Plants Nuclear Power Plant Superchargers Nuclear Power Plant Operation Environmental Protection Technologies at Nuclear Power Stations Safety Measures at Nuclear Power Plants Принципы обеспечения безопасности АЭС CONTACT INFORMATION: Academic Curriculum Supervisor Mr Leonid A. Belyaev PhD, associate professor of the Department of Nuclear and Thermal Power Plants of the Institute of Power Engineering Tel.: +7 (3822) enin.tpu.ru Optional Units Business Economics Heat Mass Exchange in Power Equipment Protection from Ionizing Radiation Nuclear Materials and Equipment 71

72 Institute of Power Engineering Master s Degree Programme Physics Physics and technics of low temperatures Full information you can see in I st part Heat and Power Engineering and Heat Engineering Master Duration: 2 years Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: advanced professional training in the sphere of heat and mechanical equipment design and operation; classes in modern laboratories with the most up-to-date equipment (Thermal and Nuclear Power Plants Processes training and research centre); graduation thesis completion at leading enterprises in the industry. TRAINING OUTCOMES Competences gained: readiness to introduce resource efficient technologies into thermal and electrical generation and transmission processes; advanced knowledge of heat and power optimization and technoeconomic tasks solution methods applying up-to-date information systems. CAREER OPPORTUNITIES Employment areas: industrial activities connected with thermal energy transmission, distribution, conversion and application and energy flows management, as well as design and production of elements, equipment and systems implementing those processes. Potential employers: thermal power research and development institutes, local energy companies and joint-stock companies, engineering companies and the companies of large corporations and holding companies such as The Institute of Thermal Physics at the Siberian division of the Russian Academy of Sciences, research and development institutes for the fuel and energy complex, Atomenergoprojekt research and development institutes, Energomash (UK) Limited, Rosenergoatom federal state unitary enterprise, Tomsk state district power station-2, Tomsk thermoelectric plant-3, Kuzbassenergo open joint-stock company and Belovskaya state district power station. Career opportunities include: chief power engineers, engineers, production foremen etc. 72

73 Institute of Power Engineering tpu.ru COURSE STRUCTURE Core units Philosophical and Methodological Issues of Sciebce and Engineering Foreign Language for Specific Purposes Economics and Production Management Mathematical Simulation Computer-Aided Equipment Design in Power Industry Experimental Research in Heat Mass and Gas- Dynamic Processes Contemporary Issues of Power Industry and Heat and Power Engineering Environmental safety Principles of Efficient engineering processes management in Power Industry and Heat and Power Engineering Mathematical Models of Dynamic Systems Selected Chapters of Higher mathematics Use of Computer Systems in Applied Problems Handling Engineering Experiment Complex Systems Modeling Design Basis of Electric Power Plants Nuclear Power Units Gas Turbine and Combined Cycle Gas Thermal Stations Knowledge Intensive Technologies Subject Area Units (Specified Electives) Heat and Electric Power Generation Technology Thermal and Nuclear Power Plants Operation Modes and Operation of Power Plants Reliability of Heat Power Equipment of Power Plants Power Supply Systems Thermal and Mechanical Equipment and Auxiliary Facilities of Power Plants Heat and Mass Transfer Processes and Installations Physicochemical Basics of Heat Mass Exchange Environmental Protection Technologies in Industrial Heat and Power Engineering Heat Technologies Power Industry Specialized Course in Power Systems Basics of Engineering Design Thermal Physics in Heat-and-Power Engineering Heat Mass Exchange in Nuclear Reactors Turbine Plants Steam Generators of Nuclear Power Plants Energotechnological processes, units and energy saving Power Supply Systems Computer-Aided Technologies in Thermal and Nuclear Power Plants Design Heat Exchangers and Compressors for Heat Power Plants and Nuclear Power Plants Engineering Systems of Heat Power Plants and Nuclear Power Plants System Engineering Reliability and Operation Conditions of Heat Power Plants Heat Power Systems and Units Design CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Alexander S. Matveyev PhD, Head of the Department of Nuclear and Thermal Power Plants of the Institute of Power Engineering of TPU Tel.: +7 (3822) portal.tpu.ru/shared/m/matveev 73

74 Institute of Power Engineering Electric Power Engineering and Electrical Engineering Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: scientific and technological potential and practical experience of leading Russian and foreign universities, research institutes and electrical energy complex enterprises are widely used in training; students participate in international academic exchange programmes. TRAINING OUTCOMES Competences gained: readiness to undertake innovative research in the sphere of electric power engineering and electrical engineering; transferable skills in developing innovative engineering projects applying ingenious design methods; ability to solve various problems in the sphere of electric power engineering and electrical engineering; abilities in teamwork management and executive decision making; deep knowledge of legal, social, environmental and cultural aspects of engineering. CAREER OPPORTUNITIES Employment areas: research, engineering and design and management in the sphere of electric energy generation, transmission, distribution, conversion and application, as well as design and production of elements, equipment and systems implementing those processes. Potential employers: interregional and regional dispatching offices, research and design institutes, generating companies and main and local power transmission lines enterprises. Career oportunities include: interregional dispatching specialists, regional dispatching specialists, research engineers, engineers. CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Yuri S. Borovikov PhD, Vice-Rector, Director of the Institute of Power Engineering of TPU, Tel.: +7(3822) [email protected], enin.tpu.ru 74

75 Institute of Power Engineering tpu.ru COURSE STRUCTURE Core units Networking, Computer and Information Technologies Foreign Language for Specific Purposes Legal Basis of Professional Performance Advanced Technologies of Electric Power Facilities Design Business Energy Saving and Audit Microprocessor-Based Software and Systems Subject Area Units (Specified Electives) Control Modes of Electric Power Systems Design and Operation of Protection Relay and Power Systems Automation Automatic Mode Control in Electric Power Systems Emergency Control in Power Systems Power Systems Automation Processing and Emergency Power Systems Automation Running and Operation Modes of Power Plants and Substations Basic Equipment Design and Operation of Protection Relay and Power Systems Automation Electric Power Systems, Power Grids and Transmission: Modes, Stability and Reliability Dispatching Control in Power Engineering Power Grids Design Emergency Control in Power Systems High-Voltage Engineering of Electric Power Systems Extra High Voltage Power Transmission High Voltage Power Generating Equipment and its Reliability High-Voltage Electrical Engineering Optimization of Modern Power Supply Systems Energy Transformation and Transportation Efficiency Selected Issues of Power Supply Integration of Renewable Energy Plants into Power Supply Systems Design and Production Technology for Electromechanical Converters Microprocessor-Based Equipment and Systems in Electromechanics Engineering Processes Design for Electrical Machines and Devices Manufacturing Electrical Machines and Devices Testing and Technical Diagnostics Electric Drives and Control Systems Electromechanical Energy Conversion Theory Comprehensive Automation of Manufacturing Processes Electric Drive for Industrial Devices Technological Systems Energy-Saving Modes of Electrical Power Supplies, Complexes, and Systems Alternative Energy Generation Methods Computer Simulation of Electrical Devices Complexes, and Systems Industrial Technological Systems Automation Renewable Energy Sources Intelligent Power Supply Systems with Renewable Energy Sources Physical and Technical Principles of Renewable Power Generation Renewable Power Generation in Power Supply System Energy Saving and Energy Efficiency Energy Saving Potential and its Realization in Various Economy Sectors Power Grids Design Emergency Control in Power Systems Automated Dispatch Control Systems of Power Grids System Software Modern Networks and Telecommunications Advanced Technologies of Dispatch Control Automation Power Production and Transportation Alternative Energy Generation Methods Power Supply Systems Analysis and Simulation Energy Transformation and Transportation Efficiency Cable Engineering, Electric Insulating Materials and Systems Advanced Materials, Products and Technologies in Electrical Insulation and Cable Engineering Electrical Machines and Devices Insulation Modern Cable Production High-Voltage Physics and Engineering High-Voltage Test Facilities and Measurements High-Voltage Physics and Engineering Material response in strong fields 75

76 76 Institute of Physics and Technology

77 Institute of Physics and Technology tpu.ru INSTITUTE OF HIGH TECHNOLOGY PHYSICS The Institute of High Technology Physics trains specialists for high-tech industries, design and research institutes, small and medium-sized high-tech innovative businesses. IHTP is modern educational and research laboratories, experimental workshops, the use of human resources and the scientific basis of modern laboratories Tomsk Scientific Centre, Russian Academy of Sciences. The training of elite staff to high-tech sectors of the economy is based on the integration of science and education. Research is a leading Institute s activity, a source of new knowledge and creation of advanced engineering and technology. They are conducted in the following areas: beam-plasma technology electrocharging technology nanotechnologies and nanomaterials optical technologies technologies for medicine Graduates employers are industrial enterprises and companies of cities in Siberia, the Urals area, European Russia, research, manufacturing and design organizations, the Special Economic Zone of Technical and Innovative Type «Tomsk», Sarov and Snezhinsk Russian Federal Nuclear Centres, aerospace enterprises, the «MIG» corporation, Chkalov plant (Novosibirsk, Russia), Keldysh Research Centre, OJSC «Russian Railways». The Faculty of the IHTP: 220 research and academic employees, including 128 PhDs, 51 higher PhD, 5 academicians of RAS. 77

78 Institute of High Technology Physics Bachelor s Degree Programme Materials Science and Technology Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme Features: training on the priority (strategic) direction of the development of science, technology and engineering as defined by Presidential Decree No 899 of July 7, 2011, and the opportunity to get a scholarship of the President and the Government of the Russian Federation; training of highly qualified personnel for the development of modern high technologies and the introduction of new materials and coatings for various applications; graduates of the programme gain in-depth training in the field of modern materials and the development of nanomaterials and next generation coatings. They are also skilled in organizing and conducting scientific research on the appropriate direction; interaction and cooperation with the leading universities in Europe, so that graduates can obtain a double degree; use of laboratory and scientific basis of the Institute of Strength Physics and Materials Science of the Siberian Branch of the Russian Academy of Sciences, scientific and educational center «Nano - Center» of TPU; students have the opportunity to master state-of-the-art equipment used in laboratories and companies both in Russia and abroad. TRAINING OUTCOMES Competences gained: ability to put into practice modern concepts of materials science, materials interaction with the environment; to be skilled in data collection, research, analysis and synthesis of scientific and technical information on the subject of research, development and use of technical documentation, the main regulations on intellectual property, the preparation of documents for patenting, to register know-how; ability to use the principles and techniques of integrated research, testing and diagnosis, treatment and modification of materials, products and their production processes, including standard and certification tests, ability to use technical means to measure and control the basic parameters of technological processes, properties of materials and products; ability to fully assess and predict the trends and consequences of the development of the science of materials; on the basis of comprehensive assessment to formulate scientific and technical problem in the field of manufacturing, diagnostics and application of nanomaterials, knowledge of intra and interdisciplinary cooperation in the sphere of professional activity; knowledge of legal, social, environmental and cultural aspects of complex engineering activities, knowledge about health care, the use of techniques and methods of work organization, providing effective, technically and environmentally safe production; ability to apply the fundamentals of high-tech innovation management, including small businesses, to be skilled in workplace design and equipment of working places, development of operational plans of the primary production units, risk assessment and identification of measures to ensure environmental and technical safety of developed materials, equipment and technology. CAREER OPPORTUNITIES Employment areas: engineering and manufacturing activities, scientific research, engineering design, organizational and management activities in the field of innovative technologies for new materials and coatings processing and production of their products. Potential employers: further postgraduate programmes at TPU, as well as other universities, including overseas universities, factory and research laboratories, companies producing ceramic and metal-based composite materials, research and development centers of the Russian Federation. Career opportunities include: head or research worker of the research laboratory or research team; 78

79 Institute of High Technology Physics tpu.ru manufacturing engineer; specialist of the quality division of the enterprise, which specializes in producing ceramic and metal based materials including composites and nanomaterials. COURSE STRUCTURE Core units History Philosophy Foreign Language Elementary Economics Economics Business Economics Law Studies Foreign Language for Specific Purposes Environmental Science Mathematics Physics Organic Chemistry Physical and Chemistry Chemistry Principles of Solid State Physics Metal Corrosion and Protection Modeling and Optimization of Material Properties and Engineering Processes Descriptive Geometry and Engineering Graphics Basic Safety Metrology, Standardization and Certification Electrical Engineering and Electronics General Materials Science and Materials Engineering Mechanics Informatics Information and Communication Technologies in Mechanical Engineering Materials Science Basic Principles of Crystallography Design Basis of Technological Processes Basics of Engineering Creative Project Student Academic Research Heat Treatment and Surface Impregnation Mechanical and Physical Properties of Materials Internship Industrial experience Composite Materials Research Methods for Materials and Processes Energy and Mass Transfer. Principles of Heat Engineering Non-Metallic Materials Theory of Material Structure General Metallurgy Nanostructured Materials Nanoindustrial Sectors and Nanomaterial Field of Application Interdisciplinary Aspects of Nanotechnologies Diffraction, Spectroscopic, and Probe Methods of Materials Research Physical-based Methods for Synthesis and Modification of Nanocrystalline Materials Diagnosis of Microscopic and Nano-Scopic Objects Manufacturing Processes of Bulk Nanostructured Material Consolidation and Parts Manufacturing Environmental Aspects of Nanotechnology Applications Interface Processes Powder Technology for Nanomaterials Manufacturing CONTACT INFORMATION: Academic Curriculum Supervisor Boris B. Ovechkin, Ph.D, associate professor of the Department of Material Science in Mechanical Engineering, Institute of High Technology Physics Tel.:+7(3822) Subject Area Units (Specified Electives) Materials Science and Technology in Mechanical Engineering Functional Materials Hardening and Surface Modification Coating Deposition Technologies 79

80 Institute of High Technology Physics Mechanical Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme Features: training for the production and processing, research, engineering design, organizational and management activities in the field of modern engineering, construction and installation of production and means of technological equipment on the basis of resource efficient technologies; acquisition of skills of the graduates of industrial and technological activities to ensure the implementation and operation of new high technology development. TRAINING OUTCOMES Competences gained: ability to use the basic laws of natural sciences, mathematical analysis and modeling, the basis of theoretical and experimental studies of complex engineering activities to model objects and processes in engineering, using standard packages and computeraided design engineering and welding products; ability to enforce process discipline in the manufacture of products for machine building and welding, develop new production processes, quality control methods to apply new models of products, their components, parts and designs; ability to develop new equipment, to check technical condition and remaining life of the existing technological equipment and structures of construction sites, if required to provide maintenance and repair work in process areas of the enterprise; ability to conduct experiments according to preset methods with the processing and analysis of the results, use of standard test methods to determine the physical and mechanical properties and technological parameters of materials and finished products; ability to conduct a preliminary feasibility study of the design decisions, organizational and planning to carry out calculations for the establishment or reorganization of production sites, to plan the work of staff and salary budget, to apply advanced methods of operation of processing equipment in the manufacture of engineering products and welding; ability to apply standard methods of calculation of parts and components of engineering products and designs, to perform design work and execute the design and technological documentation according to the standards, specifications and other regulations, including the use of computer-aided design; ability to apply modern methods for the development of low-waste, energy-saving and environment-friendly engineering and construction technologies providing life safety of people and their protection from the consequences of accidents, and natural disasters, ability to apply the methods of rational use of raw materials, energy and other resources in engineering and construction. CAREER OPPORTUNITIES Employment areas: industries associated with the development and manufacture of high-performance, competitive engineering equipment, design of standard processes of manufacturing blanks, parts, components and assemblies of machines, production management at industrial sites. Types of organization: scientific and industrial organizations, institutions of the Russian Academy of Sciences, universities, design and construction organizations in Russia and abroad. Career opportunities include: design engineer, manufacturing engineer, head of the production department, research engineer. 80

81 Institute of High Technology Physics tpu.ru COURSE STRUCTURE Core units History Foreign Language Business Economics Chemistry Mathematics Physics Thermodynamics Engineering Mechanics Descriptive Geometry and Engineering Graphics Engineering Materials Materials Science Mathematical Modeling / Selected Chapters of Informatics Metrology, Standardization and Certification Manufacturing Science in Mechanical Engineering Theory of Mechanisms and Machines Basics of Engineering Creative Project Student Academic Research Production Project Design Project Subject Area Units (Specified Electives) Computer-Aided Manufacturing and Equipment Subject Area Units Cutting of Materials and Cutting Tools Metal-Working Equipment Technical Metrology in Mechanical Engineering Mechanical-Engineering Technology Computer-Aided Manufacturing Machine-Assembly Plant Engineering CAD of Engineering Products and Technology Machinery and High-Technology Material Processing Subject Area Units Theoretical Basis and Specific Coating Technology Computer-Aided Manufacturing Technique Metal-Working Machinery CAD-CAM Systems Physicochemical Composite Development and Production Basics Specialized Course in Mechanical Engineering Physical Phenomena in High Technologies Ad Hoc Methods of Hardening Welding Production Technology and Equipment Subject Area Units Welding Theory Design and Engineering of Welded Structures Fusion Welding Technology and Equipment Welding Power Supply Welded Structure Manufacturing CAD of Engineering Processes Principles of Non-Destructive Testing of Welded Joints Regulatory System of Welding Production CONTACT INFORMATION: Academic Curriculum Supervisor Elena N. Korosteleva Ph.D., associate professor of the Department of High Technology Physics in Mechanical Engineering, Institute of High Technology Physics Tel.: +7(3822) [email protected] 81

82 Institute of High Technology Physics Optical Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme Features: Graduates of the programme are trained for the industrial-technological, organizational and project management activities to ensure the implementation of new development and operation of optical technology, light engineering and research activities. TRAINING OUTCOMES Competences gained: the ability to use the basic laws of the natural sciences in professional activities, to apply methods of mathematical analysis and modeling, theoretical and experimental studies; the ability to apply modern software tools for the development and wording of the design and technological documentation, to have skills in elements of descriptive geometry and engineering graphics; readiness for mathematical modeling of processes and facilities based on standard packages of computeraided design and research for the development of programs and their individual units, software debugging and programme setting for solving separate tasks of optical engineering, including the typical problems of design, research and control of separate units, devices and systems, and production technologies; ability to conduct optical, electrical and photometric measurements and study of various objects according to specified procedure with the choice of means and processing of the results; to be skilled in checkout, adjustment and alignment, experimental verification of certain types of optical, optoelectronic and laser devices and systems in the laboratory and on site; ability to design functional and structural scheme at the node module level and elements of optical techniques according to specified technical requirements; Readiness and the ability to calculate, design and construct standard systems, appliances, elements and nodes for optical engineering at the circuit and elemental levels, including using standard computer-aided design in accordance with requirement specification; ability to calculate production rates, technological standards for consumption of materials, work pieces, tools, to select standard equipment, the preliminary assessment of the economic efficiency of technological processes; ability to work out technical specifications for the design of separate units of devices, equipment and special tools provided by technology; Readiness to find the best solutions for the creation of certain types of optical engineering products to meet the requirements of quality, cost, deadlines, competitiveness and life safety as well as environmental safety; Readiness to establish work sequence and to organize routes of technological passing of the elements and nodes of optical, optoelectronic and laser devices and systems during the manufacturing process; ability to implement engineering controls and participate in quality control of optical engineering production, including the introduction of quality management systems; 82

83 Institute of High Technology Physics tpu.ru ability to monitor the conformance the work in progress and technical documentation to the standards and specifications. CAREER OPPORTUNITIES Employment areas: research, development, preparation and industrial engineering of devices and systems based on the use of optical radiation; hardware components of optical engineering (optics, optoelectronic and laser technology, optical and laser technology, lighting technology); checkout of optical, optoelectronic components, devices and systems, and materials for their creation, the creation of light sources. Potential employers: research institutes involved in the development of new COURSE STRUCTURE Core units History Foreign Language Philosophy Economics Informatics Chemistry Environmental Science Mathematics Physics Engineering and Computer Graphics Electrical Engineering Electronics and Microtechnology Materials Science and Engineering Materials Applied Mechanics Metrology, Standardization and Certification Principles of Optics Applied Optics Optical Metrology Optical sources and receivers Basic Safety radiation based methods and techniques of materials exploratory procedure, as well as interested in the formation of personnel reserve for their further development; international and transnational companies involved in the development of laser and lighting technology, introducing new high performance technologies (e.g. LED); plants using modern high-tech equipment (e.g. laser scanners); universities that train specialists in optical engineering. Career opportunities include: as a young professional: design-and-planning engineer, service engineer in the field of laser and lighting technology, research engineer dealing with materialradiation interaction, teacher, etc. in prospect: head of department, director of an enterprise. Optoelectronic Systems Design of Optoelectronic Devices Laser Processing Technology and Equipment Alignment and Control for Optoelectronic Devices CONTACT INFORMATION: Academic Curriculum Supervisor Alexey N. Yakovlev Ph.D, associate professor of the Department of Lasers and Lighting Engineering, Institute of High Technology Physics, Tel.: +7 (3822) [email protected] Subject Area Units (Specified Electives) Optoelectronic Devices and Systems Basics of Engineering Creative Project Information Technologies in Optical Engineering / Lightning engineering Basic Physics of Radiation Sources Principles of Quantum Electronics Radiation-Substance Interaction Selected Chapters of Optics / Basics of Lightning Engineering Optoelectronics 83

84 Institute of High Technology Physics Chemical Engineering Bachelor Duration: 4 years Subject Area: «Technology of Heat-Resistant Non-Metallic and Silicate Materials» Full information you can see in part II Biotechnology Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme Features: training of a new generation of specialists, able to operate effectively in a team within innovation activities in the biopharmaceutical field based on the integration of education, science and business. focus on the implementation of the idea of sustainable development as an alternative to the former environment damaging course of civilization, including engineering and bioethics debate on resource conservation, resource efficiency, the creation of next generation technologies and innovative products. TRAINING OUTCOMES Competences gained: ability to self-improve and develop intellectual, professional, and common cultural level, to seek for moral and physical development of personality; readiness to cooperate with colleagues for carrying out research, scientific and production works, including international, and the ability to show the initiative, personal responsibility, to be sociable; to demonstrate awareness of the sustainable development of modern civilization, security and health care, legal aspects, responsibility for engineering activities, the impact of engineering solutions on social context and social environment; ability to acquire the basic knowledge in the field of basic natural and engineering sciences, the use of this knowledge in a variety of professional activities; to understand the nature and value of information in the development of modern information society, to be ready to use information and communication technologies in the professional activities; to be able to plan, conduct theoretical and experimental research, to process the obtained results and present them in a manner relevant to the task; to be capable of organizational, management and innovation activity in the biopharmaceutical field, to demonstrate knowledge in order to solve the problem of sustainable development. CAREER OPPORTUNITIES Employment areas: production of innovative biotech medical products: generation, study and use of enzymes, viruses, microorganisms, cell cultures of plants and animals, products of their biosynthesis and biotransformation; technologies of production using microbiological synthesis, biocatalysis, genetic engineering; operation and quality control of biotechnological works in compliance with national and international regulations; organization and implementation of quality control of raw materials, intermediate and final products. Potential employers: biomedical enterprises, pharmaceutical companies (production of drug substances, enzymes, finished dosage forms), food companies, research institutions concerned with the creation of new drugs; higher education. Career opportunities include: technologist, head of the production department. 84

85 Institute of High Technology Physics tpu.ru COURSE STRUCTURE Core units History Philosophy Economics Business Economics Law Studies Foreign Language for Specific Purposes Mathematics Physics Informatics Organic Chemistry Physical Chemistry Chemistry Advanced Course on Physical Chemistry Advanced Course on Informatics Applied Aspects of Biochemistry Applied Aspects of Molecular Biology Descriptive Geometry and Engineering Graphics Electrical Engineering and Industrial Electronics Bioengineering Processes and Devices Principles of Biotechnology Basic Safety Environmental Science Mechanics Chemistry of Bioactive Substances Principles of Biochemistry and Molecular Biology General Biology and Microbiology Basics of Engineering Creative Project Student Academic Research Advanced Course on Organic Chemistry Principles of Food Biotechnology Physicochemical Analysis of Bioactive Substances Colloid Chemistry Applied Aspects of Organic Chemistry Management Subject Area Units (Specified Electives) Biotechnology Design Basis & Equipment for Biotechnical Manufacturing Use of Biotechnological Methods in Bioactive Substance Production Control Systems for Biotechnological Processes Basics of Enzymology CONTACT INFORMATION: Academic Curriculum Supervisor Elena A. Krasnokutskaya, Doctor of Chemistry, Professor of the Department of Bioengineering and Organic Synthesis. Tel.: +7(3822)

86 Institute of High Technology Physics Hi-Tech Plasma and Energy Equipment Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme Features: training for industrial and technological, organizational, managerial, research, design and marketing activities in all fields of science, technology and production associated with various-application plasma and power plants; innovation-oriented project-based learning. TRAINING OUTCOMES Competences gained: to possess entire system of scientific knowledge about the world, the ability to orientate oneself in the values of life, the life and culture; ability to use the basic proposition of mathematics, natural sciences, humanities and economic sciences when solving social and professional tasks; ability to provide for the conservation and protection of the ecosystem in the course of their public and professional activities; ability to implement educational and educational activities in the field of public and private life; ability to demonstrate citizenship, integration into modern society, determination to improve it on the principles of humanism and democracy; fluent oral and written communication skills in Russian, ability to use professionally oriented rhetoric, knowledge of methods of creating understandable texts, ability to carry out social interactions in a foreign language; ability for social interaction on the basis of accepted moral and legal norms, showing respect for others, tolerance for other cultures, willingness to maintain partnership relations; ability to work in teams, including interdisciplinary projects; ability to organize one s work on a scientific basis, to assess the results of its activities with a high degree of self-sufficiency, independent work skills; ability to receive and process information from a variety of sources, willingness to interpret, organize and present it in understandable way for others; ability to work with the computer as a management tool, willingness to work with software tools of general purpose; ability to participate in the work on innovative projects using basic methods of research; ambition for continuous personal development and upgrading of professional skills, the ability to help colleagues to critically evaluate their strengths and weaknesses, to make necessary conclusions; ability to independently apply the methods and means of knowledge, learning and self-control for the acquisition of new knowledge and skills, the development of social and professional competences, to maintain their health, moral and physical self-improvement; to possess level of thinking, ability to generalize, analyze, organize, choosing how to achieve them, ability to speak logically, with reason and clear arguments; use of the basic laws of the natural sciences in professional activities, use of mathematical analysis and experimental research methods; awareness of the nature and value of information in the development of modern society, ability to work with information in a global computer network; knowledge of the basic methods, ways and means of production, storage and processing of information; ability to work with a computer as a tool for managing information; knowledge of the primary methods of protection of industrial workers and population from the possible consequences of accidents, natural disasters; ability to select manufacturing process for the production of ion and plasma technology; ability to prepare the tooling necessary for the production of work-pieces and quality control; ability to participate in the work of the unit on the development and production of technical documentation for a product, ensuring technical quality control of products and reduction of the value; ability to carry out the cost estimate of production and non-production development costs and provide quality of a product, take measures to reduce the cost and improve the quality of the designed and manufactured products; ability to organize the work of frontline workers, to find and make management solutions in the field of organization and regulation of the labor of small groups; ability to organize and synthesize information; ability to cooperate with colleagues and work in a team; willingness to learn scientific and technical information, both national and international experience on the subject of the study, to work with information in a global computer network; ability to participate in the development of performance specification and a programme of experimental work; ability to choose the equipment for conducting experiments and recording the results, to participate in the development of technical documentation for bench installation; ability to conduct laboratory and bench tests, to process, and issue the results obtained making use of 86

87 Institute of High Technology Physics tpu.ru computer technology; ability to process and analyze the results of the research work, arrange materials for obtaining patents, copyrights, licenses and technical reports; willingness to participate in the work of design and engineering departments with a view to obtaining information about the state-of-the-art developments of structural materials that meet the requirements of plasma technology; ability to participate in the preparation of performance specification for the design of systems, mechanisms and components included in the projected plasma installation and tooling; ability to design plasma equipment using the automated systems design; ability to participate in market research, marketing of products; ability to estimate the amount of an order of plasma equipment and the time of execution. CAREER OPPORTUNITIES Employment areas: design, construction of various-application plasma and power plants (process ion and plasma technology, industrial laser, medical, environmental), management and monitoring of the work of these plants, scientific research and testing of plasma systems in the industry. Potential employers: research, design and development institutions that engineer, design and construct plasma and power plants, organizations and businesses using modern hi tech plasma and power equipment, universities which train students on plasma and power equipment. Career opportunities includ: as a young professional: maintenance man, tooling engineer of plasma equipment, design-and-planning engineer, mechanic, repairman, electrical fitter, supervisor of plasma and power plants, etc. in prospect: works manager, head of a department, etc. COURSE STRUCTURE Core units History Philosophy Foreign Language Economics Business Economics Law Studies Foreign Language for Specific Purposes Mathematics Physics Informatics Chemistry Environmental Science Probability Calculation and Mathematical Statistics Physical Field Theory Dielectric and Semiconductor Physics Gas Plasma Physics Mathematical Simulation Descriptive Geometry and Engineering Graphics Engineering Materials Materials Science Metrology, Standardization and Certification Fluid Mechanics Thermodynamics Engineering Mechanics Strength of Materials Theory of Machines and Mechanisms Machine Components and Design Basis Electrical Engineering and Electronics Electrical Engineering Theory Electronics and Microtechnology Electrical Materials Science Electric Machines High Voltage Electrophysics Electromagnetic Compatibility of High Voltage Equipment Basic Safety Subject Area Units (Specified Electives) Electric Discharge and Beam-Plasma Technologies Basics of Engineering Creative Project Student Academic Research Principles of Vacuum Technology Charged Particles Sources High-Voltage Pulsed Power and Electronics Basic Physics of Interaction of Radiation with Matter Basic Physics of Plasma Technologies Laser Processing Technology and Equipment CONTACT INFORMATION: Academic Curriculum Supervisor Professor Vladimir V. Lopatin Doctor of Physical and Mathematical Sciences, Head of the Department of High Voltage Engineering and Electrophysics, Institute of High Technology Physics. Tel.: +7(3822) [email protected] 87

88 Institute of High Technology Physics Production Machines and Equipment Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme Features: Graduates of the program are trained for the production engineering, research, engineering design, organizational and administrative activities in all industries associated with oil and gas exploration and prospecting, the rational exploitation of oil and gas fields; The programme provides in-depth knowledge, affecting virtually all areas of the oil and gas industry (drilling, transportation and storage of oil and gas, operation of machinery and equipment of oil and gas fields). TRAINING OUTCOMES Competences gained: ability to apply the basic and special knowledge in mathematical, natural, human and economic sciences to provide full-fledged engineering activities; to demonstrate an understanding of the nature and value of information in the development of modern society, to possess the basic methods, ways and means of production, storage and processing of information, to make use of modern technical facilities and information technology to obtain effective communication; ability to independently apply methods and means of learning, education and self-control, to understand the prospect of intellectual, cultural, moral, physical, and professional self-development and self-improvement, to be able to critically assess their own strengths and weaknesses; ability to effectively work individually and as a team member, demonstrating leadership skills in separate groups of performers, to be able to show personal responsibility; to demonstrate knowledge of the legal, social, environmental and cultural aspects of complex engineering activities, awareness about health issues, life safety and working conditions at oil and gas production enterprises; to perform communications in a professional environment and society as a whole, including communications in the foreign language, to analyze current documentation and work out their own technical documentation, to clearly set out and defend the results of complex engineering activities at machinebuilding, oil and gas enterprises and industrial research organizations; ability to use the basic laws of the natural sciences, mathematical analysis and modeling, the basis of theoretical and experimental research in complex engineering activities to model objects and processes in the oil and gas industry, using the standard packages and computer-aided design of engineering products; ability to carry out experiments according to stated methods with the processing and analysis of the results, to apply standard test method to determine the physical and mechanical properties and technological parameters of materials and finished products; ability to conduct a preliminary project feasibility of the design decisions, to carry out organizational planned calculations for the establishment or reorganization of production sites, to plan the work of staff and salary funds, to apply advanced methods of process equipment operation when making oil and gas production; willingness to make up technical documentation, to perform works on standardization, engineering support for the certification of technical facilities, systems, processes, equipment and materials, to organize metrological assurance of processing procedures, to prepare documentation for a quality management system at the enterprise; ability to participate in innovative projects using the basic techniques of research, based on a systematic study of scientific and technical information, national and international experience, conducting patent research; ability to apply modern methods for engineering of low-waste, energy-efficient and environmentally friendly technologies to ensure people s life safety and their protection from the potential consequences of accidents and natural disasters, the ability to apply the methods of rational use of raw materials, energy and other resources in oil and gas industry. CAREER OPPORTUNITIES Employment areas: branches of industry, related to oil and gas exploration and prospecting, the rational exploitation of oil and gas fields, engineering, related to the calculation and design, operation and maintenance of oil and gas processing facilities. Potential employers: research institutes involved in the development of new technologies and equipment for oil and gas fields, concerned with the formation of the personnel reserve for the further development; engineering and oil and gas companies, including international and transnational ones, which introduce new high-technology processes of oil and gas production and transportation; enterprises that make use of modern high-tech equipment of oil and gas industry; universities that train specialists in oil and gas equipment. 88

89 Institute of High Technology Physics tpu.ru Career opportunities include: as a young professional: repairman of drilling equipment, design engineer, maintenance man of pumping units, pumpman, operator of processing pumps and injection of the drilling mud surfactant into formation, oil and gas production operator, maintenance man, etc. in prospect: head of the transport department, head of the supply department, etc. COURSE STRUCTURE Core units Foreign Language Philosophy History Law Studies Foreign Language for Specific Purposes Cultural Studies Psychology Sociology Political Science Logistics Innovation Marketing Business Etiquette and Corporate Culture Basis Legal Groundwork for Petroleum Engineering Legal Control and Intellectual Property Protection Economics Business Economics Chemistry Environmental Science Informatics Engineering Mechanics Mathematics Linear Algebra and Analytic Geometry Differential Calculus Integral Calculus Differential Equations Physics Thermodynamics Mathematical Simulation Selected Chapters of Informatics Elements of Elasticity Theory Elements of Solid State Physics Descriptive Geometry and Computer Graphics Engineering Materials Metrology, Standardization and Certification Fluid Mechanics Electrical Engineering and Electronics Basic Safety Materials Science Manufacturing Science in Mechanical Engineering Strength of Materials Theory of Mechanisms and Machines Machine Components and Design Basis Industrial Management and Engineering Intellectual and Industrial Properties Methods of Scientific and Technical Creativity Subject Area Units (Specified Electives) Production Machines and Equipment Basics of Engineering Creative Project Student Academic Research Basic Petroleum Engineering CAD/CAM Principles Basics of technical diagnostics Principles of Workflow Automation in Oil-and-Gas Industry Corrosion protection of oil and gas production equipment Equipment and Technology of Oil and Gas Well Drilling Hydromachines and Compressors Equipment and Technology of Oil and Gas Production and Oil and Gas Production Machines and Equipment Engineering Running and Repair of Oil and Gas Production Machines and Equipment CONTACT INFORMATION: Academic Curriculum Supervisor Vitali V. Drobchik, associate professor of the Department of Theoretical and Applied Mechanics, Institute of High Technology Physics, Tel.: +7 (3822) [email protected] 89

90 Institute of High Technology Physics Master s Degree Programme Electric Power Engineering and Electrical Engineering Master Duration: 2 years Subject Area «High Voltage Engineering and Physics» Full information you can see in part III Materials Science and Technology Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme Features: Master s Degree Programme is focused on meeting the needs of Russian research and production organizations and businesses, as well as industrial companies for highly qualified personnel in order to develop modern high technologies and introduce new materials and coatings for various purposes. Materials science has always been and remains one of the priority science areas. Therefore, experts in this field are always in demand both in domestic and international labor markets. The programme is designed for interaction and collaboration with leading universities in Europe, so that masters can obtain a double degree. Specialist training programme makes good use of laboratory and research facilities of the Institute of Strength Physics and Materials Science of the Siberian Branch of the Russian Academy of Sciences, where a branch of TPU, scientific and educational center «Nano - Center» of TPU was set up. Our students have the opportunity to master state-of-the-art equipment, equipment used in laboratories and companies both in Russia and abroad. Subject area Manufacture of Nanostructured Materials is being implemented by the Department of Nanomaterials and Nanotechnologies. Research interests of the Department include the study of processing of bulk nanostructured materials using patented techniques that have gained world recognition. Innovation Centre for Nanomaterials and Nanotechnologies, the Department of Nanomaterials and Nanotechnologies serves as a base for scientific research and practical training for students and young researchers. Facilities: The Department of Material Science in Mechanical Engineering has its own purpose-designed classrooms and research laboratories equipped with automatized laser measurement system, optical microscopes, atomic-force and scanning tunneling microscopes, X-ray machines, unique optical-television system «TOMSC», a device for analysis of mechanical properties of materials, nano indenter, machines for investigation of plasticity and hardness of materials, nano spray dryer, press for sintering nanoceramics in high-intensity plasma. TRAINING OUTCOMES Competences gained: ability to use a deep knowledge of mathematics and natural sciences and modern concepts of materials science for the application and study of products from nanosized powder based bulk nanomaterials. to implement, operate and maintain a modern hightech equipment for the production of bulk materials and nano-based powders, to ensure their high efficiency, to observe the rules of health and safety in the workplace to meet the requirements of environmental protection. to carry out research activities in the field of production and investigation of bulk nanomaterials with the required properties, the development and introduction of new technologies into production. to implement, operate and maintain modern equipment for the study of composition and structure, testing of 90

91 Institute of High Technology Physics tpu.ru operational properties of bulk materials and nano-based powders and their products, including standard and certification testing of materials, products and processes. to formulate a new research problem on the basis of problems arising, to make an original contribution to the field of science, engineering and technology connected to the production and investigation of bulk materials and nanomaterials. to analyze and systematize scientific and technical information, the best national and international experience in the field of modern materials, to prepare reporting documents for the research, documents on intellectual property protection. CAREER OPPORTUNITIES Employment areas: graduates of the program are trained for engineering and manufacturing activities, scientific research, engineering design, organizational and management activities in the field of innovative technologies for new materials and coatings processing and production of their products. Types of organizations: further postgraduate programmes at TPU, as well as other universities, including overseas universities, factory and research laboratories, companies producing ceramic and metal- COURSE STRUCTURE Core units Philosophical and Methodological Issues of Science and Engineering Mathematical Simulation and Contemporary Issues in Materials Science and Engineering Modern Methods of Structural Analysis in Materials Science Diagnostics of Materials Basic Tendencies in Material Science Nanostructured Material Process Technology for Nanoindustries Computer and Information Technologies in Science and Manufacturing Materials Science and Technologies of Advanced Materials Foreign Language for Specific Purposes Student Research Teaching Practice Research Project Subject Area Units (Specified Electives) Materials Science and Technology of Nanomaterials and Coatings Methodology for Materials Selection in Mechanical Engineering Scientific Basis for Material Surface Modification Metal and Ceramic Based Nanostructured Materials Powder Composite Materials and Parts based composite materials, research and development centers of the Russian Federation. FSUE Russian Federal Nuclear Center All-Russian Research Institute Of Experimental Physics (RFNC - VNIIEF), Sarov; FSUE Russian Federal Nuclear Center Zababakhin All-Russia Research Institute of Technical Physics (FSUE RFNC-VNIITF), Snezhinsk; HC Open Joint- Stock Company NEVZ-Soyuz, Novosibirsk; Federal State Unitarian Enterprise Scientific Research Institute Scientific Industrial Association LUCH, Podolsk; JSC Academician M.F. Reshetnev Information Satellite Systems, Zheleznogorsk; Russian Aircraft Corporation MiG, Moscow Region, Lukhovitsy; PJSC Electroizoljator plant, the Moscow Region; JSC Sibelektromotor, Tomsk; Institute of Strength Physics and Materials Science of the Siberian Branch of the Russian Academy of Sciences (ISPMS SB RAS). Career opportunities include: head or research worker of the research laboratory or research team; manufacturing engineer; specialist of the quality division of the enterprise, which specializes in producing ceramic and metal based materials including composites and nanomaterials; teacher in a technical institute or university, etc. Computer Simulation of Processing and Treatment Material Production, Equipment and Computer-Aided Heat Treating of Materials and Products Advanced Technologies of Surface-Hardening Condition Monitoring and Reliability Inspection of Materials and Parts Formation, Processing and Treatment of Materials Nanostructured Materials Tool Production Nanomaterials and the environment: application and risk evaluation Manufacturing Process for Bulk Nanostructured Materials Test Methods for Operating Characteristics of Nanomaterials Diffraction, Spectroscopic, and Probe Methods and Diagnostics of Nanomaterials CONTACT INFORMATION: Academic Curriculum Supervisor Boris B. Ovechkin Ph.D, associate professor of the Department of Material Science in Mechanical Engineering, Institute of High Technology Physics Tel.: +7 (3822) [email protected] 91

92 Institute of High Technology Physics Mechanical Engineering Master /German Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme Features: training of highly skilled professionals, able to not only service science absorbing industry, but also to be ready for the modernization of existing and introduction of new technological processes and equipment, including those based on nanotechnology. TRAINING OUTCOMES Competences gained: to demonstrate profound scientific, mathematical and engineering knowledge of physicochemical and technological basics of production and processing of next generation materials needed for scientific and engineering challenges of high-tech production; to receive, process, analyze and summarize scientific and technical information, the best national and international experience in engineering and engineering technology industries, high-tech processing and production of new materials and products; to participate in basic and applied research for the creation of new means of technological equipment and automation technologies in development activities; to apply their knowledge to solve ill-defined engineering problems facing the production of the latest technologies and to take an innovative approach for developing new and original ideas and design techniques for solving specific production problems associated with the use of advanced technologies; to identify, organize, and obtain the required data in the area of one s activities with the use of modern methods of examination of materials, processes, tools, jigs and fixtures and automation engineering industries; to be able to plan and carry out research of various levels and types according to one s specialization by using the latest developments in science and technology, advanced domestic and foreign experience in the field of knowledge, relevant to the work performed, and to be able to critically evaluate theoretical and experimental data and draw conclusions, to use the basics of invention, legal fundamentals in the field of intellectual property; to be able to integrate the knowledge of different and related technological processes and materials processing and to solve problems that require abstract thinking and originality of analysis for the conceptualization of engineering models of the selected technology areas. CAREER OPPORTUNITIES Employment areas: industrial and technological, organizational and administrative, research and teaching, design, containing the range of tools, methods, techniques 92

93 Institute of High Technology Physics tpu.ru and methods of human activity aimed at creating competitive engineering products. Employment areas: scientific and industrial organizations, institutes of RAS, design and construction organizations, businesses and organizations of special economic zones of technical type, and educational institutions. Career opportunities include: design engineer, manufacturing engineer, head of the production department, research engineer. Potential employers: enterprises and companies of Special Economic Zone of Technical and Innovative Type «Tomsk»; OAO Tomskneft VNK (OJSC); OAO Tomskgazprom; OAO Stroytransgaz; JSC State Scientific Center - Research Institute of Atomic Reactors; OAO Sibtruboprovodstroy; Tomskneftekhim Ltd.; The Siberian Chemical Combine (SCC); Novosibirsk Aircraft Production Association named after V.P. Chkalov (NAPO); OAO Irkutsk Aviation Plant; PO Polyot (Production Association), Omsk; JSC Academician M.F. Reshetnev Information Satellite Systems, Zheleznogorsk; NPO Siberian Mashinostroitel; OOO Siberian engineering company; OAO Research and Production Center Polyus; Tomsk Vakhrushev Electromechanical Plant; OOO RemTekhServis; ZAO Company SIAM; OOO PK (Industrial Company) MION (Multifaceted Tool of General Purpose), Tomsk; JSC Sibelektromotor, Tomsk; OAO Manotom, Tomsk; post-graduate programmes at TPU, etc. COURSE STRUCTURE Core units Foreign Language for Specific Purposes Management and Marketing Intellectual Property Protection Philosophical and Methodological Issues of Science and Engineering Computer Technologies in Mechanical Engineering Research Principles, Organization and Planning of the Experiment Mathematical Analysis of Engineering Advanced Engineering Materials Systems Analysis, Modeling and Optimization in Mechanical Engineering Principles of Tribology Dimensional Analysis of Product Design Contemporary issues in Mechanical Engineering Internships and Student Research Subject Area Units (Specified Electives) Engineering and Production Automation Specialized Course in Mechanical Engineering CAD-CAM Systems Design and Manufacturing of Work Tools Computer-Aided Manufacturing Equipment Computer-Aided Manufacturing Measurement and Control Automation Design and Manufacturing of Components Welding Engineering Welding Process Automation Contact Welding Technology and Equipment Design and Calculation of Welding Accessories Welding of Alloys and Specials Special Methods of Welding and Soldering Welded Connections Quality Control Technology and Equipment for Flame Treatment of Metals and Thermal Cutting High Technology Physics in Mechanical Engineering Technology of Science Absorbing Mechanical Engineering Industry Methodology and Instruments for Experimental Studies in Mechanical Engineering Multicomponent Nanostructured Coatings with Tailored Properties Vacuum Equipment Automation and Control Nanostructured and Nanosized Materials Manufacturing Technology Thermal Physics of High-Temperature Technology in Mechanical Engineering Production Technology of Special Alloys CONTACT INFORMATION: Academic Curriculum Supervisor Vladimir F. Skvortsov associate professor of the Department of Automated Engineering Technology, Institute of Cybernetics Tel.: +7 (3822) portal.tpu.ru/departments/kafedra/tamp 93

94 Institute of High Technology Physics Optical Engineering Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme Features: focus on the needs of Russian research and production organizations and businesses, as well as industrial companies for highly qualified personnel for research, development and organization of production devices and systems based on the use of optical radiation, laser technology for various purposes. ability to carry out project work in the field of lighting technology, production of lighting products, to master the methods and technology of measurement of optical and physical properties of materials; use of laboratory and research facilities of the Department of Lasers and Lighting Engineering; ability to master to master state-of-the-art equipment used in laboratories and companies both in Russia and abroad. TRAINING OUTCOMES Competences gained: use of in-depth scientific and mathematical knowledge and modern ideas about the interaction of radiation with matter; ability to introduce, operate, and maintain modern high-tech laser, spectral and lighting equipment; implementation of research activities in the field of study of the optical, spectral and energetic properties of materials when exposed to radiation in different spectral range; ability to design lighting and optical systems as well as computer modeling of new lighting solutions using LED and laser technology; ability to formulate a new research problem based on emerging problems, to make an original contribution to the field of science, engineering and technology; ability to analyze and systematize scientific and technical information, the best national and international experience in the field of modern optoelectronics and light engineering; ability to prepare accounting documentation for the research, documents on the protection of intellectual property. CAREER OPPORTUNITIES Employment areas: research, project activities, production and technological, organizational and administrative activities aimed at study, engineering, planning and organization of production of devices and systems based on the use of optical radiation, optical information, optoelectronic and laser equipment and technology. Career opportunities include: production engineer, design engineer, processing area manager, design-and-planning engineer. Potential employers: Enterprises of optical and lighting industries, enterprises of laser industry, research institutes, design organizations, higher education institutes. OOO (Limited liability company) Gorsvet, Enterprises and companies of Special Economic Zone of Technical and Innovative Type «Tomsk», FSUE Russian Federal Nuclear Center Zababakhin All-Russia Research Institute of Technical Physics (FSUE RFNC-VNIITF) (Snezhinsk), OAO (OJSC) Tomskneft VNK, OAO (OJSC) Tomskgazprom. 94

95 Institute of High Technology Physics tpu.ru COURSE STRUCTURE Core units Philosophical and Methodological Issues of Science and Engineering Contemporary Issues in Science Basics of Lightning Engineering Condensed Matter Physics Foreign Language for Specific Purposes Mathematical Methods and Modeling in Optical Engineering Information Technologies in Optical Engineering Student Research (activity) Teaching Practice Research Project Physics and technology of Powerful Radiation Effects Luminescence Theory Methods of Spectrum Analysis Radiation Solid State Physics Pulsed Laser Equipment CONTACT INFORMATION: Academic Curriculum Supervisor Professor Viktor M. Lisitsyn Doctor of Physical and Mathematical Sciences, the Department of Lasers and Lighting Engineering, Institute of High Technology Physics Tel.: +7(3822) Subject Area Units (Specified Electives) Lighting Engineering and Light Sources Photometry, Colorimetry Lighting Engineering and Light Sources Light Sources Architectural Lighting Fixtures Architectural Lighting Design Energy Saving and Electric Lighting Audit Lighting Aesthetics, Illuminated Advertisement and Design Graphics Simulation of Architectural Lighting Methods and Technology of Pulsed Optical and Physical Research Laser Scanning Laser Engraving Methods and Technology of Pulsed Optical and Physical Research Methods and Technology of Optical Processes Recording Electronics and Nanoelectronics Master Duration: 2 years Subject Area «Physical Electronics» Full information you can see in part VI Chemical Engineering Subject Areas «Chemical Engineering of Bioactive Substances» «Chemical Engineering of Refractory Nonmetals and Silicates» Full information you can see in part II Master Duration: 2 years 95

96 96 Institute of Physics and Technology

97 Institute of Physics and Technology tpu.ru INSTITUTE OF CYBERNETICS Science, education, communication, management, production, energy, business everywhere IT specialists are in demand. The Institute of Cybernetics is a unique intellectual-rich educational environment that ensures professional IT education. In research laboratories students have the unique opportunity to engage developments in computer control systems of production, telecommunications and software systems, geoinformation systems, digital (3D) modeling and visualization, knowledge management systems, supercomputing. On the areas of the Institute of Cybernetics a supercomputer is placed, which is capable of solving complex tasks in elementary particle physics, electron beams and radiation transport, hydrodynamic modeling of oil and gas fields, complex magnetic fields modeling, etc. During its existence, the Institute has trained for the national economy more than 14 thousand professionals in the field of automatics, remote control, control engineering systems, mathematical modeling, and software and control systems optimization. The accumulated experience of the IC in research and teaching, established relationships and cooperation with RAS institutes and high-tech companies are the basis for achieving the goals of the development of fundamental and applied research, the implementation of problem-oriented and interdisciplinary projects, on this basis improving the quality of training, scientific and academic staff. The faculty of the IC: 249 research and academic employees, including 125 PhDs, 25 higher PhDs, 2 academicians of RAS. 97

98 Institute of Cybernetics Bachelor s Degree Programme Applied Mathematics and Informatics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme is designed to train specialists capable of generating new high-end technologies and innovative projects, having practical skills of mathematical modeling involving the latest hardware and software and able to extensively put their innovative ideas to life. TRAINING OUTCOMES Competences gained: Working knowledge of formal methods of a systematic approach to analyzing and solving any problems. Thorough knowledge of modern branches of physical and mathematical sciences, which enable to conduct both basic and applied research in various fields: physics, medicine, electronics, geophysics, psychology, economics, etc. Knowledge of modern software (mathematical, telecommunications, algorithmic and programming, network, etc.). CAREER OPPORTUNITIES Employment areas: The areas of professional activity related to applied mathematics are research centers, state authorities, educational institutions and organizations of various forms of ownership, which use the methods of applied mathematics and computer technology in their work. Graduates successfully work in the research, design, technology and engineering organizations, commercial entities and banks, manufacturing facilities and universities. Examples of companies and organizations: Melentiev Energy Systems Institute of Siberian Branch of the Russian Academy of Sciences (ESI SB RAS) (Irkutsk); JSC Azot, KuznetskCoal Group (Kemerovo); Siberia Energy (Krasnoyarsk); POLUS, Tomsk Chemical Plant (TCP), EleSy Company (Tomsk); Sun Microsystems (California, USA). Graduates can work as systems analysts in banking and industrial structures, developers of algorithms and software for complex information systems, designers of databases and expert systems, developers of multiprocessor systems, researchers in the field of applied mathematics and theoretical computer science, teachers of mathematics and computer science. Introduction of information technologies in all areas of modern life predicts growth in the demand for such specialists and the high level of their wages. 98

99 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Foreign Language History Philosophy Economics Business Economics Foreign Language for Specific Purposes Mathematical Analysis Algebra and Geometry Complex Analysis Functional Analysis Physics, Informatics Computer Architecture Computer Graphics Computer hands-on course Programming Languages and Methods Operating Systems Databases Differential Equations Discrete Mathematics Probability Calculation and Mathematical Statistics Numerical Methods Optimization Techniques Games theory and operations research Theory of Random Processes Creative Project Subject Area Units (Specified Electives) Application Data Analysis Networking and System Administration Data Evaluation Mathematics in System Theory Planning and Experimental Data Processing Application Informatics Application theory of oscillations Web-Application Design Mathematical Physics Equations Expert Systems Mathematical Simulation of distribution dynamic systems Additional Chapters of Mathematical Physics Computer Models and Applications Mathematical Models of electrodynamics Mathematical Simulation of Plasma and Plasmalike Systems Planning and Experimental Data Processing Application theory of oscillations Web-Application Design Mathematical Physics Equations Numerical Methods of Mathematical Physics CONTACT INFORMATION: Academic Curriculum Supervisor Stepanov Dmitriy Yurievich PhD in Technical Sciences, Assistant Professor of the Department of Applied Mathematics Tel: +7(3822)

100 Institute of Cybernetics Design Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme provides highly qualified designers for industrial enterprises and companies in various economic sectors. Students participate in real scientific research and real projects of the university, regional art museum, art and stained glass workshops, design studios, furniture factories and a number of enterprises in the city. Characteristics of a programme graduate: Ability to learn at higher educational levels, continuing professional development, mastering of new methods and techniques of professional activity. Readiness to be a bearer and an interpreter of broad general scientific, humanities, intellectual and professional knowledge and skills. Ability to quickly adapt to the changing conditions of professional and social activities. Readiness for self-development, self-improvement and career growth. TRAINING OUTCOMES Competences gained: Ability to analyze and identify the requirements for a design project, to draw a detailed requirements specification; ability to synthesize a set of possible solutions of the problem or approaches, and give scientific credence to one s proposals. Drawing skills, ability to use drawings in the practice of making compositions and their processing for the purpose of design of any object; knowledge of principles of choosing a technique for a specific drawing; skills of linear and structural design and the basics of academic painting; basic professional skills of a sculptor; knowledge of modern font culture, methods of prototyping and modeling, techniques of working with color and color compositions, methods and classical techniques of easel graphic works, basic rules and principles of typesetting and making-up. Skills of development of the project idea based on conceptual and creative approach to solving design problems; knowledge of possible methods of forms, structures, complexes and systems harmonization, and complex of functional compositional solutions. Ability to design products, industrial prototypes, objects. Ability to prepare a complete set of documentation on a design project for the purpose of its implementation; ability to carry out basic economic analysis for the project implementation. CAREER OPPORTUNITIES Employment areas: Designer is one of the most creative professions in modern business, providing the richest opportunities for self-actualization and building a successful career in a variety of business activities. Areas of activity: design and advertising departments in companies and enterprises; design institutes; private design companies; furniture factories. On mastering the universal methods and skills of design engineering, one will always be in demand in 100

101 Institute of Cybernetics tpu.ru companies involved in design of interiors and exteriors of public and private buildings and structures, as well as advertising companies and agencies of media and communications, modeling agencies, publishing houses, manufacturing facilities. Examples of companies and organizations: Tomsk Regional Museum of Art, art workshop «Zolotaya kist», stained glass workshops «Asparta-Vitrazh» and «Vitrazhi Sibiri», design studios «Mir vitrazha», Tomsk furniture factories. Positions held: art director, web-designer, artist, designer, decorator. COURSE STRUCTURE Core units Informatics Information Technologies in Design History Art History Computer Simulation Management Foreign Language for Specific Purposes Advertising and Design Russian Language and Speech Standards Technology and Materials Science Physical Training, Philosophy Economics Subject Area Units (Specified Electives) Industrial Design Academic Painting Academic Sculpture and Plastic Modeling Academic Drawing, Bionics Computer Graphics in Industrial Design Basics of Project Graphics in Industrial Design Basic Arrangement in Industrial Design Technical Painting, Drawing Theory of Shadows and Perspective Views Technical Drawing Design Engineering Color Science and Coloristics, Ergonomics and Anthropometry CONTACT INFORMATION: Academic Curriculum Supervisor Zakharova Alena Aleksandrovna PhD in Technical Sciences, Head of the Department of Engineering Graphics and Industrial Design Tel:+7 (3822) , 101

102 Institute of Cybernetics Bachelor Mechanical Engineering Duration: 4 years Subject Area «Technology, equipment and automaton of Engineering manufacture» Full information you can see in part VI Design-Engineering Supply for Mechanical Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The following requirements of modern engineering determine the qualification level of graduates: High-tech automated production. High level of information technology. Computer integration of design and management. High technology of products materialization. High technology products. As part of the programme, existing regularities of production of new parts and machines on the basis of computer technology and computer-aided design application are studied. Distribution of automated equipment, appearance of computer-aided design and production management systems in almost all engineering enterprises has caused a demand not only for the fundamental technical education, but to a greater extent for knowledge of computer technology. This programme is internationally accredited by the Association for Engineering Education of Russia. TRAINING OUTCOMES Competences gained: Ability to develop, use and improve technological equipment, techniques, production automation systems and means in serial and mass production of different purpose products. Ability to choose necessary materials, equipment, accessories, tools, automation means, software, methods of design, construction and testing of engineering products. Ability to develop and implement engineering processes for production of engineering products basing on the main regularities in the process of production when using modern information technology. Ability to apply modern methods for development of low-waste, energy-saving and environmentally friendly technologies which ensure safety of human life and their protection from the consequences of accidents, disasters and natural calamities; ability to apply the methods of rational use of raw materials, energy and other resources. 102

103 Institute of Cybernetics tpu.ru Ability to test and diagnose the condition and dynamics of machine-building production facilities, to determine the physical and mechanical properties and technological characteristics of materials and finished products using the methods, techniques and tools for analyzing. CAREER OPPORTUNITIES Employment areas: Extensive training allows graduates to work not only in engineering, but also in most industries, where different equipment is used. Graduates of the programme work at scientific and industrial organizations, institutes of the Russian Academy of Sciences, universities, design and engineering organizations, aerospace industry enterprises, machinebuilding companies, as well as in the Tomsk Special Economic Zone of Technical and Innovative Type. Examples of companies and organizations: JSC Academician M.F. Reshetnev Information Satellite Systems (Zheleznogorsk); JSC Novosibirsk Aircraft Production Association (NAPO) (Novosibirsk); DIAMECH 2000 Ltd. (Moscow); Manotom OJSC (Tomsk); POLUS (Tomsk); Siberian Machnostroitel Ltd. (Tomsk); Ilma (Tomsk); «Electroinsulator» Gzhel Plant; LLC «Gazprom geofizika». Positions held: engineer, design engineer (designer), industrial engineer (technologist); tools engineer; engineer for automation and mechanization of production processes, engineer for production management automated systems, engineer for checkout and testing, etc. COURSE STRUCTURE Core units Materials Science Metrology Standardization and Certification Manufacturing Equipment Manufacturing Science in Mechanical Engineering Processes and Operations of Forming Automatic Control Theory Electrical Engineering and Electronics Subject Area Units (Specified Electives) Design-Engineering Support of Manufacturing CAD and Calculation of Manufacturing Equipment Automated Control of Manufaturing Equipment Computer-Aided Manufacturing Technique Tooling of Computer-Aided Manufacturing Technique Principles of Dynamics of Manufacturing Equipment CONTACT INFORMATION: Academic Curriculum Supervisor Bukhanchenko Sergey Evgenevich PhD in Technical Sciences, Head of the Department of Automation and Robotics in Mechanical Engineering Tel +7(3822) , е-mail: 103

104 Institute of Cybernetics Control in Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: Automation and management is the direction which combines traditions of classical training on fundamental engineering sciences with practical training of modern engineers. Automation and management is an area of science and technology aimed at creating hardware and software of management control systems. TRAINING OUTCOMES Competences gained: Ability to identify scientific nature of problems arising in the course of professional activities, to involve the appropriate physical and mathematical tools for their solution. Ability to carry out calculations and design of individual units and devices of automation systems. Readiness to implement the results of development of automation equipment and systems. Ability to collect and analyze scientific and technical information, summarize national and international experience in the field of automation and management. Readiness to participate in development of technical documentation. Ability to adjust control tools and facilities and to carry out their routine maintenance. Readiness to carry out installation and adjustment of systems and applications software and software tools for automation and control systems. CAREER OPPORTUNITIES Employment areas: Graduates of this programme are in demand in almost all enterprises. They may include plants of any complexity: from dairies, cheese factories and mineral water pouring lines to complex production lines of metal rolling, vehicle assembly, oil and gas pipelines control, oil cracking control. Our graduates work in organizations involved in development of technical objects control systems (POLUS, Tomsk; JSC Academician M.F. Reshetnev Information Satellite Systems, Zheleznogorsk; EleSy Company, Tomsk; SME Tomsk Electronic Company, Tomsk), energy industry enterprises (Balakovo NPP; Kalinin NPP; Euro-Asian Energy Company, Novokuznetsk; Infraenergo, Kazakhstan; Energoneft- Tomsk JSC (Strezhevoy City). Professionals are required in most organizations for automation of oil and gas transportation and refining operations: Joint Stock Company Surgutneftegaz ; Eastern Petrochemical Company, Nakhodka; TomskNIPIneft; Sakhalin Energy Investment Company Ltd. The graduates can occupy the following positions immediately after graduation: engineer; industrial processes automation engineer; automated control systems (ACS) hardware maintenance engineer; ACS system software engineer; ACS special software engineer; network administrator; software engineer (programmer); electronics engineer; engineer for checkout and testing and other positions corresponding to qualification. 104

105 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Computers Computer Systems and Networks Informatics Information Technologies History Mathematics in System Theory Management Metrology Standardization Certification Mechanics Control Systems Simulation Software Engineering and Algorithmization Foreign Language for Specific Purposes System Control Programming Software Creative Project Automatic Control Theory Reliability Theory Automation and Control Equipment Physics Phylosophy Chemistry Digital Technology and Microtechnology Ecology Economics Electrical Engineering and Electronics Elements and Devices of Control Systems Subject Area Units (Specified Electives) Management and Informatics in Engineering Systems Automatic information-control systems Information Support of Control Systems Information Networks and Telecommunications Local Control Systems Computer-Aided Manufacturing Software Control Systems Design CONTACT INFORMATION: Academic Curriculum Supervisor Konovalov Viktor Ivanovich PhD in Technical Sciences, Assistant Professor of the Department of Automatics and Computer Systems Tel:+7 (3822)

106 Institute of Cybernetics Workflow and Production Automation Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme is aimed at technical manpower training for the oil and gas industry in the field of hydrocarbons transport and refinery processes automation. The specialists are oriented at modern IT software and hardware design and operation, including the most advanced automated computer systems aimed at data processing in the oil and gas industry. TRAINING OUTCOMES Competences gained: Ability to use the received knowledge for determination, formulation and solving of engineering problems in the modern technological and production processes automation systems design, production and operation. Ability to plan and conduct experiments, interpret data and use them in the innovative engineering activities in the field of technological and production processes automation. Ability to choose and operate appropriate software, technical equipment and tools for solving technological and production processes automation problems. Foreign language skills allowing to work in the international environment and understanding of cultural, language, social and economic differences. Ability to effectively work on an individual basis, as a member or the leader of the group and to take the responsibility for the group risks and work while solving innovative engineering problems in the field of technological and production processes automation. CAREER OPPORTUNITIES Employment areas: Graduates may work in the sphere of oil and gas field automation and hydrocarbon transfer equipment operation. Besides, oil and gas field automation resembles computer-aided automation in other industries (particularly, in ore mining, chemical, energy, food industries) and has clear advantages in terms of tactical and engineering solutions and implementations. Consequently, the specialists of this programme are demanded in these industries too. Examples of companies and organizations: JSC NK Rosneft; JSC LUKOIL; Gazprom JSC; JSC Centrsibnefteprovod; Tomsktransgaz JSC; Vostokgazprom JSC; Eastern Transnational Company; JSC Tomskneft; Tomskgaz JSC; TomskNeftegazGeology JSC; TomskNIPIneft; EleSy Company; CJSC Tomsk Oil and Gas Company. Positions held: industrial processes automation and mechanization engineer, production automated control systems engineer, software engineer, system maintenance and test engineer, process engineer and others. 106

107 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units CAD of Controlling Means and Systems Computers and Networks Diagnostics and Reliability of Control Systems Informatics and Information Technologies Metrology Standardization and Certification Mechanics System and Process Simulation Foreign Language for Specific Purposes Automation and Control Facilities Automatic Control Theory Quality Management Physics Physical Training Philosophy, Chemistry Ecology, Economics Business Economics Electronic Facilities Electrical Engineering and Electronics Subject Area Units (Specified Electives) Workflow and Production Automation (in oil-and-gas industry) Engineering and Production Automation in oil-andgas industry Product Lifecycle Management Automation Oil and Gas Well Drilling Materials Science Microprocessors Application Management and Planning of Automated Operation Basic Petroleum Engineering Flowstream Processing Transportation, and Storage Automated System Design Industrial Controllers Reservoir Engineering Power Electronic Automatic Devices Creative Project Engineering Processes of Automated Operation Compressor Station Operation CONTACT INFORMATION: Academic Curriculum Supervisor Mikhailov Valeriy Vasilievich PhD in Technical Sciences, Assistant Professor of the Department of Integrated Computer Control Systems Tel:+7 (3822) , 107

108 Institute of Cybernetics Mechatronics and Robotics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme has incorporated two previously independent specialties: robotics technology and mechatronics. Consequently, we have a heavy specialized program providing the opportunity to independently design and program robots in Robototechnika student technology business incubator and participate in different robotics technology competitions. The specialists are engaged in robots and robotics systems development and design for both industrial and non-industrial purposes. They also develop essential algorithmic software for robotics systems management, design and operation. TRAINING OUTCOMES Competences gained: Ability to use received knowledge for solution of engineering problems in modern mechatronic, robot devices and systems design, production and operation (as well as intelligent systems) together with the usage of world-class technologies and advanced software tools. Proficient knowledge of hardware equipment, software products for mechatronic and robot control systems design, analysis and synthesis. Ability to plan and conduct analytical, simulation and experimental research for the purpose of mechatronic and robot devices and systems design, production and operation. Ability to comprehend modern methods, algorithms, models and engineering solutions used in robotics technology and mechatronics and knowledge of the fields of their usage, including in the automated production. Ability to effectively work in the professional activity both on an individual basis and as a team member. Foreign language skills allowing to work in the international environment and understand cultural, language and social and economic differences. CAREER OPPORTUNITIES Career field: research and design organizations dealing with various industrial processes automation, production departments dealing with implementation of the modern equipment for these processes automation. Robotics technology is a rapidly developing industry which demands both theorist experts capable of introducing new ideas and technicians able to work in a team to produce specified nodes according to the given parameters. Even though robotics technology used to be under the supervision of the defense sector and space industry, today it is widely used in everyday life. There are vacant positions in electronics, household appliances, car manufacturing companies, etc. Examples of companies and organizations: JSC Kontur Tomsk Production Association, Tomsk Electrotechnical Plant, JSC Sibelektromotor, Miniature 108

109 Institute of Cybernetics tpu.ru Bearings Factory, The Research Institute of Electronic Systems at TUSUR, SPC POLUS, Manotom OJSC, GazProm TransGaz LLC Tomsk, SME Tomsk Electronic Company LLC, OJSC TomskNIPIneft, Russian State Scientific Center for Robotics and Technical Cybernetics (RTC), Saint-Petersburg. Positions held: the graduates have the opportunity of advancement in the career both as mechatronic and robot systems designers and as managers in the field of industrial robotics technology and mechatronics. COURSE STRUCTURE Core units Mechatronic Module and Robots Components and Engineering Information Devices in Robotics technology and Mechatronics Computer Control in Robotics technology and Mechatronics Mathematics in System Theory Management Mechanics Mathematical Calculation Software Foreign Language for Specific Purposes Physics Physical Training Philosophy Chemistry Ecology Economics Business Economics Subject Area Units (Specified Electives) Industrial Robotics technology and Mechatronics Mechatronics Microprocessors Application for Robotics technology and Mechatronics mobile robots Simulation of Mechatronic Robotics Systems Drive of Micro Motion Systems Mechatronic and Robotics Systems Software Mechatronics and Robotics Device engineering CAD of Mechatronic Module elements Power Electronic Devices for Robotics technology and Mechatronics Electrical and Hydraulic Drives of Mechatronic and Robotic Devices Electronic Facilities of Mechatronic and Robotics Systems Electrical Engineering CONTACT INFORMATION: Academic Curriculum Supervisor Mamonova Tatiana Egorovna Senior Teacher of the Department of Integrated Computer Control Systems; Tel:+7 (3822) portal.tpu.ru/shared/s/stepte 109

110 Institute of Cybernetics Standardization and Metrology Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme in the field of standardization and metrology is of cross-disciplinary nature, as its specialists are demanded almost in every sector of national economy. The programme is aimed at information technologies development and application in the process implementation and problems solution in the field of standardization and metrology. The subject matter of the programme is formulated in compliance with the standards developed by the Federal Agency on Technical Regulating and Metrology and the international organizations in the field of standardization and metrology: International Bureau of Weights and Measures, International Electrotechnical Commission, International Organization for Standardization, International Organization of Legal Metrology, International Union for Pure and Applied Chemistry and International Union of Pure and Applied Physics. TRAINING OUTCOMES Competences gained: Graduates shall be ready to: Participate in the development of draft standards, methodical and standard manuals, technical documentation and in the implementation of the developed projects and programs. Carry out metrological support and engineering supervision; use modern methods of measurement, supervision, testing and quality control. Determine the nomenclature of the measured and test parameters of the products and industrial processes; set appropriate accuracy standards of measurement and control; choose the means of measurement and control; develop measurement chains and carry out measurement means verification, calibration, adjustment and repair. Estimate the level of the defect, analyze the reasons for it and elaborate proposals for its prevention and elimination. Participate in the certification of products, industrial processes, services, quality systems, production and environmental enterprise management systems. Carry out technical documentation expert review, equipment condition and operation oversight and compliance monitoring; indicate resources; determine the reasons for the existing defects and troubles in the equipment work; take measures to eliminate them and increase the efficiency of its usage. CAREER OPPORTUNITIES Employment areas: The field of the graduates professional activity is the settlement, implementation and performance control of the standards, rules and requirements for the product (service), process (work) and system, their development, production, usage and metrological support, aimed at the high quality and safety of the products and services, high economic efficiency for the manufacturer and consumers. Graduates of the programme may work in quality control departments, standards offices, metrological services at enterprises of all industries and forms of ownership, test centers and laboratories, regional centers for standardization and metrology, academic and industry-based research institutes, education institutions, certification and accreditation bodies and other organizations. Graduates work at the enterprises of Russia, in the near and far abroad countries; in Tomsk at such large enterprises, as Siberian Chemical Plant, Tomsk Electromechanical Plant, POLUS, Manotom, Roltom, 110

111 Institute of Cybernetics tpu.ru Himstroy, EleSy Company and many others. The Russian and international experience shows that experts in this area have competitive advantages that determines great demand on graduates of the programme «Standardization and Metrology», their rapid career growth and high level of their wage. The specialists may work both as a quality assurance system designer and as a research worker or operator. The most successful students who were selected by the TÜV Rheinland representative office in Siberia and in the Far East now have the chance to continue their education in German and get the convertible European certificate of education. COURSE STRUCTURE Core units Accuracy Interchangeability and Norming Foreign Language Informatics and Programming Information-Measuring Systems Computer Graphics Computer Simulation Mathematical Models in Metrology Materials Science and Engineering Materials Testing and Diagnosis Methods and Facilities Metrology Microprocessors in Measuring Devices Management and Testing Techology Design Packages of Electronic Circuits Management and Experiment Planning Computer-Aided Statistical Systems Systems Analysis Theory of Electric Circuits and Signals Quality Management Physics Basic Physics of Measurements and Measurement Standards Chemistry Ecology Electronic Engineering Electrical Engineering Subject Area Units (Specified Electives) Standartization and Certification in Instrument Engineering Measurement and Testing Automation Qualimetry Applied Metrology Certification Statistical Approach to Quality Monitoring and Control Standard Systems Design and Legal Requirements CONTACT INFORMATION: Academic Curriculum Supervisor Kazakov Veniamin Yurievich PhD in Physical and Mathematical Sciences, Assistant Professor of the Department of Computer-Aided Measurement Systems and Metrology Tel.:+7 (3822) [email protected]. 111

112 Institute of Cybernetics Computer Science and Technology Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme incorporates the study and acquisition of the system of principles, methods and means of human activities which are aimed at analysis, design and use of automated systems of information processing and management, computers, systems and networks, computer software and automation systems. Computer Engineering bachelor programme is accredited by the Canadian Engineering Accreditation Board, CEAB until 2014, by the European Network for Accreditation of Engineering Education (ENAEE), has obtained public international accreditation in the Russian Association for the Engineering Education and got the certificate for 5 years. TRAINING OUTCOMES Competences gained: Deep knowledge of the modern methods and techniques of software and hardware development and design of automated systems of information processing and management. Proficient knowledge of hardware, software programs and technologies of the leading global producers like Intel, Microsoft, Altera, Xilinx, Cisco, Atmel, CATIA V5 and ENOVIA SmarTeam, Hughes Corp International and others. Ability to develop software and hardware (systems, devices, blocks, programs, databases, etc.) in compliance with the technical assignment and using computer-aided design tools. Ability to conduct theoretical and experimental research. Readiness to implement, operate and maintain modern software and hardware. Foreign language skills allowing to work in the international environment. Readiness to work effectively both on an individual basis and as a team member. CAREER OPPORTUNITIES Employment areas: Graduates educated according to this programme may be engaged in system and analytical, organizational and management, operational, design, engineering and manufacturing, research activities in different management structures in the field of environment and natural resources management, environmental management, economy and urban development, agricultural sector and forest management, etc. They may research, analyze and design diverse complex systems, carry out their mathematical, informational and software support, deal with design methods and techniques, software tools debugging and production. Graduates of the programme «Computer Science and Technology» work in The Central Bank of the Russian Federation (Moscow), JSC Tomskneft, SME Tomsk Electronic Company, Vostokgazprom JSC, V.E. Zuev Institute of Atmospheric Optics of Siberian Branch of the Russian Academy of Science (IAO SB RAS), State Higher Education institutions; Tomsk Scientific Center, Siberian Branch, Russian Academy of Sciences; JSC TomskNIPIneft, JSC Tomsktransgaz, JSC Tomsk Beer, EleSy Company (Tomsk), INCOM Group (Tomsk), Dillinger Stahlbau, Siemens (Germany), Samsung Electronics (South Korea), BMW England, Hughes Corp International, A&AT, Citibank Global Markets (USA), etc. Graduates of the programme may work as software developers, system architects, analysts and systems administrators, databases administrators, information systems and resources experts, solutions and complex engineering systems sales managers, IT managers. 112

113 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Databases Calculus Mathematics Discrete Mathematics Data Protection Informatics Computer Graphics Linear Algebra and Analytic Geometry Mathematics of Logic and Theory of Algorithm Mathematical Analysis Management, Metrology Standardization and Certification Operating Systems Computer Hardware Peripheral Devices Foreign Language for Specific Purposes Networking and Telecommunications Creative Project Probability Calculation and Mathematical Statistics Programming Technology Physics Ecology, Economics Business Economics Electrical Engineering Electronics and Circuit Technique CAD systems Algorithms and Analytical Complexity Automation Systems Simulation CAD of distributed on-line Systems Microprocessor-Based Systems Modern Multimedia Systems and Techologies Web-Application Design System Programming Processing Methods and Systems Computer-Aided Systems Software Networking Architecture Internet Technologies IT Systems Design Principles of Control Theory Automated Systems Software Structures and Processing Algorithms Software Systems Design CONTACT INFORMATION: Academic Curriculum Supervisor Reyzlin Valeriy Izrailevich PhD in Physical and Mathematical Sciences, Assistant Professor of the Department of Automatics and Computer Systems; Tel. +7 (3822) portal.tpu.ru/shared/v/vir Subject Area Units (Specified Electives) Computers, Networks and Telecommunications Systems Information Theory Automata Theory Hardware Description Language Programming Embedded Processors Networking Simulation Computer-Aided Design Software System Control Programming Software Databases and Expert Systems Software Systems Design Information Technologies Data Structures and Procedure Analysis Information System Design Software Engineering Web Development Artificial Intelligence Systems Simulation Parallel Computing and Systems 113

114 Institute of Cybernetics Information Systems and Technologies Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The main objective of the programme is to prepare world-class specialists in the sphere of information systems and technologies. Up-to-date methods and development tools for multipurpose information systems software tools are used within the training. TRAINING OUTCOMES Competences gained: Profound knowledge of up-to-date methods and tools of multipurpose information systems and technologies development. Ability to work as an ERP- and Web-programmer, a manager of internet projects, data base and web-site administrator, a system analyst, an information security specialist. Proficiency in software products and technologies of the world leading producers such as Microsoft, Cognos, MapInfo Co., confirmed by international IT-certificates. Professional level of training in the programming languages C++, С#, Java, SQL, PHP, etc. Professional level of training in data bases and knowledge bases design technologies (Microsoft Access, MS SQL Server, MySQL, etc.), operational systems of Microsoft Windows, Unix, Linux and other families. Team work ability and project management experience. Professional English skills. CAREER OPPORTUNITIES Employment areas: Various organizations are interested in Bachelors of IT, these organizations include: Manufacturing enterprises, design and engineering, research and scientific centres with different kinds of activity, which employ information systems and technologies to organize and manage their operations, including banking institutions, service sector and oil-andgas industry enterprises. Companies and firms which develop and implement informational systems and technologies as well as applied software for all spheres of human activity. Institutions of higher education. Graduates may hold the following positions: informational technologies director, head of ACS (Automatic Control Systems) department, software engineer, electronic engineer, ACS engineer, LAN administrator, database administrator, webprogrammer and other positions according to the personal qualification. 114

115 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Algorithms and Data Structures Networking Architecture Calculus Mathematics Discrete Mathematics Information Systems Software Tools Intelligent Systems and Technologies Information Systems Infocommunication Tools Linear Algebra and Analytic Geometry Mathematics of Logic and Theory of Algorithm IT Systems Design Metrology Standardization and Certification high-level language programming Management English for Specific Purposes Creative Project Theory of Information Processes and Systems Data Management, Physics Chemistry Ecology Economics Business Economics Subject Area Units (Specified Electives) Geoinformation Systems ERS Data Input and Processing Geoinformatics Geoinformation Systems Geoinformation Technologies Information Security and Data Protection Computer Geometry and Graphics Basics of Electronics and Circuit Engineering Industrial DataBases Control Systems Information Systems and Technologies in Business Networking and System Administration Internet Technologies Enterprise Automation Consulting Corporate Information Systems Business Process Management Methods and Techniques System Simulation Operating Systems Business Application Design for Enterprise Information Systems CONTACT INFORMATION: Academic Curriculum Supervisor Tsapko Gennadiy Pavlovich PhD in Technical Sciences, Professor, Head of the Department of Automatics and Computer Systems Tel:+7 (3822) ,

116 Institute of Cybernetics Applied Informatics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme s peculiarity is high students mobility (internship and practical training within major leading companies, summer schools including the foreign ones). Graduates of Applied Computing programme are notable for their ability to solve a wide range of problems connected with the development, implementation, maintenance and operation of information systems in different spheres: economics, management, law, education, public administration, etc. TRAINING OUTCOMES Competences gained: Graduates shall be ready to: Set tasks and solve problems related to development of new information technologies and information systems in economics. Develop new information technologies and systems and update the existing ones in the sphere of economics according to the technical requirements. Carry out theoretical and experimental studies, conduct research related to the assessment of project information security. Adopt, operate and maintain up-to-date information technologies and systems, provide their high effectiveness, observe the regulations regarding healthcare, labour safety, environment protection requirements. Foreign language skills allowing to work in the international environment. Work effectively both as an individual and a member of a team. CAREER OPPORTUNITIES Employment areas: The spheres of professional activity of the graduates include any organizations which employ economic information systems: bank management, large industrial enterprises, small and medium-sized enterprises, providers, computing centres, etc. Graduates of Applied Computing programme are information systems and information resources specialists, system analysts, developers of business applications. They are able to work in IT-companies which develop software packages as well as in organizations which implement and operate information and communication technologies. Graduates of the programme work in State Higher Education institutions, Tomsk Scientific Center, Siberian Branch, Russian Academy of Sciences; JSC TomskNIPIneft, EleSy Company (Tomsk), in ITcompanies which develop software. Graduates have the opportunity to take Master degree programme «Enterprise Management Systems». Positions held: system analyst, system architect, implementation and maintenance engineer for 1C:Enterprise package, application developer, programmer for 1C:Enterprise package. Profound knowledge of the subject area combined with practical skills in the sphere of information and communication technologies creates competitive advantages which determine high, stable demand for the graduates of Applied Computing programme, their promotion at work and high income level. 116

117 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Databases Computers Networks and Telecommunications Systems Discrete Mathematics Simulation Study Intelligent Information Systems Informatics and Programming Information Security Information Systems And Technologies Computer Graphics Logic and Theory of Algorithm Mathematical Economics Management Object Oriented Programming Operating Systems Software Engineering Web Development Information System Design Project Management Business Process Reengineering (BPR) Network Economics Creative Project Theory of Systems and Systems Analysis Software Systems Design Data Types and Structures Physics Ecology Economics Business Economics Subject Area Units (Specified Electives) Applied Informatics (in Economics) Banking Information Systems Accounting and Audit Information Systems E-Commerce Information Systems Finances and Accountancy CONTACT INFORMATION: Academic Curriculum Supervisor Marukhina Olga Vladimirovna PhD in Technical Sciences, Assistant Professor of the Department of Control System Optimization Tel:+7 (3822) е-mail: portal.tpu.ru/shared/m/marukhina 117

118 Institute of Cybernetics Arts and Treatment of Materials Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: The distinctive feature of a process engineer is a harmonious combination of technical knowledge and skills with individual creativity of students. Those students who have drawing, composition and painting art skills may learn to work with high technologies of different materials craftwork using up-to-date equipment. When accepting the students for this programme, the preference is given to the entrants who have graduated from art schools and colleges. Besides traditionally high level of engineering knowledge, the graduates get thorough computer training and high-quality art education. Art disciplines (drawing, painting, composition, sculpture, the theory of shadows and perspectives) make up 40% of the curriculum. Professional artists who have graduated from High Art Schools and are the members of the Artists Union of Russia are attracted for teaching art disciplines. TRAINING OUTCOMES Competences gained: Skills of public speaking, business and scientific languages in the Russian and one of the foreign languages. Ability to find organizational and managerial solutions in non-standard situations and readiness to take responsibility for them. Ability to select equipment, accessories and tools necessary to achieve required functional and esthetical properties of industrial artistic products, to specify and develop technological treatment process for products made of different materials and indicate technological parameters of the finished goods production. Ability to tackle professional tasks in the sphere of design, preparation and implementation of single-piece and small-scale production of industrial artistic products. Ability to select artistic criteria and utilize composition, colour and shape developing techniques in accordance with the functional purpose and artistic peculiarities of the manufactured products. Ability to organize the team work within the scope of single-piece and small-scale production as well as to control batch production of artistic products according to the labour legislation. CAREER OPPORTUNITIES Employment areas: There is a great demand for the specialists not only with professional artistic skills, but also with knowledge of treatment and manufacturing techniques; it is particularly important under the conditions of growing requirements to quality and esthetical perception of industrial and everyday goods. Graduates are able to work in the sphere of design, production and restoration of design objects, decoration and stylistics of different interiors, consultations regarding the assessment of artistic products and jewellery, research and development of new materials and technologies for creation of industrial artistic products and jewellery. Graduates are in demand in advertising and industrial companies, institutions of the Russian Academy of Sciences, institutions of higher education, design and engineering organizations. After the training the graduates work as process engineers in design departments of enterprises which design and manufacture metal, ceramic and wooden products, in advertising agencies. 118

119 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Computer-Aided Design Metrology Standardization and Certification Equipment for Realization of Art Material Processsing Technologies Mechanical Engineering Equipment Manufacturing Science in Mechanical Engineering Material Processing Technologies Art Materials Science Subject Area Units (Specified Electives) Art Material Processing Techologies CAD and Calculation Automated Control for Manufacturing Equipment Imitation Jewerly and Accessories Design Computer Design Basics of Computer-Generated Imagery Material Connection Techologies CONTACT INFORMATION: Academic Curriculum Supervisor Seryakov Vadim Aleksandrovich PhD in Technical Sciences, Assistant Professor of the Department of Automation and Robotics in Mechanical Engineering; Tel:+7 (3822) portal.tpu.ru/shared/s/seryakov 119

120 Institute of Cybernetics Master s Degree Programme Applied Mathematics and Informatics Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of highly skilled specialists in the field of modeling in socio-economic and political applications; mathematical tools and software for computing complexes, systems and networks; training of specialists with necessary theoretical knowledge and skills in application of the current and prospective mathematical tools, analytical and numerical techniques for solving applied problems in various fields (IT, medicine, electronics, physics, geophysics, etc.). TRAINING OUTCOMES Competences gained: Ability to apply the knowledge in the advanced branches of the physical and mathematical disciplines in a broad range of activities; Ability to analyze global problems using the mathematical modeling techniques and based on the deep knowledge in the fundamental mathematics and computer science; Ability to estimate the amount of computational work and to solve a defined problem to the extent reasonably practical; Ability to develop a personal vision of an applied problem in strict mathematical terms; Ability to formulate non-mathematical problems, especially in terms of the liberal arts. CAREER OPPORTUNITIES Our graduates of the master s programme can be employed as: researchers in institutes of the Russian Academy of Sciences (RAS) for research work in various disciplines, including liberal arts; design engineers who are able to apply the advanced mathematical modeling techniques for solving practical problems; engineers in industrial enterprises and firms with knowledge-intensive production; instructors and lecturers of mathematical disciplines in higher and secondary schools of different profiles. Potential employers: Research, design and production organizations and enterprises: OJSC TomskNIPINeft VNK; SPC POLUS 120

121 Institute of Cybernetics tpu.ru (Tomsk); Tomsk Geophysical Company LLC (GeoPrime) Enterprises and firms operating in the Special Economic Zone of Technical and Innovative Type Tomsk, companies of the fuel and energy sector: Gazprom JSC; Vostokgazprom JSC; JSC NK Rosneft ; Open Joint-Stock Oil and Gas Company Slavneft (OAO NGK Slavneft) Enterprises of Rosatom Nuclear Energy State Corporation (Rosatom): Siberian Chemical Plant (Seversk). Financial companies: Gazprombank OJSC; Finam CJSC; Rosbank OJSC. COURSE STRUCTURE Core units Discrete Mathematical Models History and Methodology of Applied Mathematics and Informatics Computer Simulation Management Continuous Mathematical Models Foreign Language for Specific Purposes Program Registration and Licensing Modern Computer Technologies Numerical Methods of Mathematical Physics Subject Area Units (Specified Electives) Mathematical Simulation High-Performance Computer Systems Applied Mathematical Statistics Digital Signal and Graphic Processing Mathematical Physics Solution Methods of Nonlinear Differential Equations in Mathematical Physics Integral Equation Application and Solution Methods in Radioelectronics and Ecology Equations of Plasma-Chemical Processes CONTACT INFORMATION: Academic Curriculum Supervisor Berestneva Olga Grigorievna Doctor of Engineering Science, Professor of the Department of Applied Mathematics Tel +7 (3822) , е-mail: [email protected] 121

122 Institute of Cybernetics Master Mechanical Engineering Duration: 2 years Subject Area «Technological-process and production automation in mechanical engineering» Full information you can see in part VI Design-Engineering Supply for Mechanical Engineering Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of exclusive specialists for machine building industries, in which generation and implementation of innovations, latest scientific achievements, and engineering solutions are required; the programme for young specialists who are involved in the design and research of newly developed new machines (robots, machining centers, and tooling systems). TRAINING OUTCOMES Competences gained: The master in Design-Engineering Supply for Mechanical Engineering is able: to carry out patent research for ensuring novelty and patentability of new design solutions; to determine key performance indicators of processes, machine building facilities and products of different purposes; to develop generalized solutions of design problems, to analyze options and to choose an optimal solution, to forecast implementation results, to plan project implementation; to participate in development of mechanical engineering products and facilities, taking into account technological, engineering, operating, aesthetical, economical, and management parameters; to develop preliminary, engineering and detailed designs of machinery production facilities, hardware and instrumentation systems; to develop functional, logical, engineering and economical organization of machinery production facilities, their components, hardware, software, and algorithmic tools based on advanced design methods, tools and practices; to estimate the innovation potential of a project under implementation. CAREER OPPORTUNITIES Employment areas: The masters can continue their study for the postgraduate degree, work in high-tech and innovation companies, hold executive positions, become leading specialists in design and production facilities, as well as in firms specialized in development of mechanical engineering software. Potential employers: Scientific, design and production organizations and enterprises; Research and Production Company Micran, CJSC; Machine Building Company Ilma, CJSC. 122

123 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units CAD/CAM/CAE Systems in Program Packages Dynamic Processes in Production Machines Design of Production Equipment in SolidWorks Design of Production Equipment Contact Phenomena in joints of Production Machines Reliability and Diagnostics of Production Machines Nanotechnologies in Mechanical Engineering Foreign Language for Specific Purposes Design and Simulation of Computer Control Equipment Quality Engineering Support CONTACT INFORMATION: Academic Curriculum Supervisor Krauinsh Petr Yanovich, Doctor of Engineering Science, Professor of the Department of Automation and Robotics in Mechanical Engineering, Tel: +7 (3822) portal.tpu.ru/departments/kafedra/arm Subject Area Units (Specified Electives) Dynamics and Acoustics of Machine Systems Automation and Control of Production Equipment Automation Systems of Production Equipment Drives Production Automated Technologies Control Diagnostic Systems Devices and Apparatus of Production Equipment Dynamics of Engineering Tools and Production Machines Service backup of Production Equipment 123

124 Institute of Cybernetics Control in Engineering Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of exclusive multi-functional specialists in the field of control systems who are highly skilled in all aspects of the complex engineering, able to develop new information technologies, set up a business, as well as the executive staff for small and medium IT businesses. The purpose of the programme is to acquire the knowledge that enables to solve the following problems: to design, research, produce, and operate control systems and tools in the industry and defense sectors, the economic sector, transport, agricultural, and health care sectors; to develop advanced software and hardware for research and designing, control, technical diagnosis, and industrial tests of automatic and automated control systems. TRAINING OUTCOMES Competences gained: The graduate is qualified to: apply deep natural science and mathematical knowledge for solving scientific and research problems in the field of automation and process control systems; to apply the acquired knowledge for solving innovative engineering problems using the advanced know-how and world-class achievements under highly restrictive operating, economical, social and other conditions; to plan and implement analytical, simulation, experimental, research projects, as well as mathematical modeling for designing, producing, and operating automation equipment and process control systems; to use the international experience of design, technology, and business process management for conducting innovation engineering activities in the field of automation equipment and process control systems; to know a foreign language to the extent sufficient for communicating in the international professional environment; to effectively work individually, as well as a team leader or member. CAREER OPPORTUNITIES Graduates from the Master s Degree Programme are qualified: to continue their research work on the basis of the postgraduate programme; to teach in higher schools; to work in departments and services of industrial enterprises, organizations involved in designing, researching and operating automated process control systems, as well as in developing software for control systems. Potential Employers: ANKA/Institute for Synchrotron Radiation Laboratory for Application of Synchrotron Radiation (Germany); JSC Academician M.F. Reshetnev Information Satellite Systems (Zheleznogorsk); TomskNIPIneft JSC; SPC POLUS (Tomsk); Electrokhimpribor (Lesnoy, Sverdlovsk). 124

125 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units CAD of Controlling Means and Systems Control Computer Technologies in Engineering Systems Object and Control System Simulation Optimization Methods Foreign Language for Specific Purposes Inventive Problem Solving Techniques Subject Area Units (Specified Electives) Control System Theory Automated Control in Engineering Systems System Identification and Diagnostics Internet Technologies Object Oriented Programming Control System Design Intelligent Control Systems Real Time Control Systems Control System Theory Control in Mechatronic Systems Adaptive Control Systems System Identification and Diagnostics Integrated Control Systems Reliability of Control Systems Mechatronic System Design Robots and Robot Systems Intelligent Control Systems Control in Mechatronic Systems CONTACT INFORMATION: Academic Curriculum Supervisor Efimov Semen Viktorovich Assistant Professor of the Department of Automatics and Computer Systems; Tel: +7 (3822)

126 Institute of Cybernetics Standardization and Metrology Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training in the field of computer science, modeling and control of measuring technology, development of computer-based measurement and control systems at design, development and production stages, as well as in the field of operation and repair of products. training of exclusive specialists for promoting cutting-edge computer technologies: collection, processing and representation of data; control and diagnostics functions; data recognition and identification in a broad range of application areas; compliance with the standards developed by the Federal Agency for Technical Regulation and Metrology (Rosstandard), as well as international organizations in the field of standardization and metrology, such as BIPM, IEC, ISO, OIML, IUPAC, and IUPAP. TRAINING OUTCOMES Competences gained: The master in standardization and metrology is able: to build, manage and administer teams, to make executive decisions taking into account different opinions, to develop a work sequence; to manage development and implementation of new measuring technologies, writing statements of work for development of product quality standards; issuing claim letters and analyzing causes of defects and process violations; to carry out a metrological analysis of engineering solutions and production processes; to carry out the development and practical implementation of standardization, certification and measurement assurance systems; to ensure that systems of assuring validity and reliability of measurements are highly efficient under adverse external factors; to plan the continuous improvement of these systems. CAREER OPPORTUNITIES Employment areas: The specialists are qualified to carry out the following professional activities: certification; rule-making; inspection and audit; production management; operations management; design; pedagogical; research and development. Graduates are able to work in quality management and control departments, standardization services, metrological services in enterprises of all industries and ownership types; in test centers or laboratories; regional centers of standardization and metrology; academic and industry research institutes; educational institutions, certification and accreditation agencies, and other organizations. Potential employers: SME Tomsk Electronic Company; Tomsk Center of Standardization, Metrology And Type certification; Sibkabel CJSC; Artlife (Tomsk). 126

127 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Information Support of Product Lifecycle Metrological Assurance in Measuring Systems Physical Systems Stimulation Reliability of Engineering Systems Measurement Dissemination Organization and Economic Design of Innovative Processes Research and Organization Principles of Experiment Foreign Language for Specific Purposes Quality Systems Contemporary Issues of Standardization and Metrology Philosophical and Methodological Issues of Science and Engineering Subject Area Units (Specified Electives) Computer-Aided Measurement and Control, Standardization, Metrology and Classification (DD, Kazakhstan) Laboratory Accreditation Measuring Processes Software Sensor Networks Digital Measuring Signal Processing CONTACT INFORMATION: Academic Curriculum Supervisor Zarevich Anton Ivanovich PhD in Technical Sciences, Assistant Professor of the Department of Computer-Aided Measurement Systems and Metrology, Tel: +7 (3822)

128 Institute of Cybernetics Computer Science and Technology Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: Training of the executive staff of small and medium IT businesses; administrative and technical directors of companies; managers of projects associated with development and implementation of information technologies, IT business managers, divisional managers of these companies. TRAINING OUTCOMES Competences gained: A graduate is prepared: to apply deep natural science and mathematical knowledge for solving scientific and engineering problems in the field of computer science and computer engineering; to state and solve innovative problems of engineering analysis associated with the development of hardware and software for information and automated systems, using analytical methods and complex models; to implement innovative engineering projects for development of hardware and software for automated systems of different purposes; to plan and implement theoretical and experimental research projects in the field of designing hardware and software for automated systems; to carry out the developer s support of the processes associated with designing, implementing, and operating hardware and software of automated systems of different purposes; to efficiently use a foreign language, to prepare documentation, to present and substantiate results of innovation engineering activities; to effectively work individually, as well as a team leader or member; to demonstrate his/her personal responsibility and responsibility for his/her team. CAREER OPPORTUNITIES Potential employers: companies that develop hardware and software for automated information systems; companies that use IT products and solutions in their activities: machine building companies, aerospace and instrument making companies, oil and gas companies, banks, nuclear power companies; research institutes; higher educational institutions. Career opportunities include: design engineer, software engineer, programming supervisor, production divisional manager. Examples of companies and organizations: EleSy Company (Tomsk); Vostokgazprom JSC; JSC Tomskneft VNK; Tomsk Scientific Center SB RAS; INCOM Group (Tomsk); JSC NK Rosneft; Institute of Computational Mathematics and Mathematical Geophysics SB RAS (Novosibirsk); TomskNIPIneft VNK; Tomsk Electronic Company. The masters have the opportunity of studying for the postgraduate degree TPU. 128

129 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Computer Systems Intelligent Information Systems Information Security and Data Protection Optimization Techniques Foreign Language for Specific Purposes Contemporary Issues of Informatics and Computers Decision Principle Software Systems Design Philosophical Issues of Science and Engineering Subject Area Units (Specified Electives) Computer Networks and Telecommunications Networking and Information System Administration Wireless information network Networking and Telecommunication Simulation Information and Telecommunication System Design Network operating systems Internet Technologies: protocols and services Computer Analysis and Data Interpretation Methods of Computational Intelligence Methods of Intelligent Processing and Analysis of Graphics Pattern Recognition Technique Neural Networks Neuroevolutional Computing Databanks Microprocessors Hardware and Software of Embedded computers and Microcontroller Methods and Facilities of Object Interface Methods and Techniques of Digital Signal Processing Design Methods of System Logic Check Internet Server Software Electronic and Microprocessor based system Design Software Systems Design Multimedia and Computer Graphics Network operating system Modern Concepts of Database Organization Design Technologies of Information Systems Design Technologies of Network Corporate applications Description Language of Information in Network Corporate applications Distributed Automated Systems Cloud-computing GRID-Technologies Web-Service Architecture Distributed Information and Telecommunication Systems Distributed Microprocessor Systems Numerical Solution Methods of Boundary Systems in Design Software and Infoware of Control Systems Information System Administration Databank Analysis Information Technologies Computer simulation Software Application Design Design technologies of User Interface CONTACT INFORMATION: Academic Curriculum Supervisor Cheredov Andrey Dmitrievich PhD in Technical Sciences, Assistant Professor of the Department Computer Engineering Tel: +7 (3822) portal.tpu.ru/shared/c/chad 129

130 Institute of Cybernetics Information Systems and Technologies Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of specialists for small and middle businesses, major national and international companies involved in developing and using information systems and technologies; research of cutting-edge techniques and tools for designing geographic information systems and technologies of different purposes; acquisition of software products and technologies supplied by world s top companies; Microsoft, Cognos, MapInfo Co., etc. approved by international IT certificates. TRAINING OUTCOMES Competences gained: The master of information systems and technologies is able: to analyze and take into account trends and directions in development of information systems and networks in their professional activities; to use cutting-edge methods and technologies for designing, debugging, producing, and operating information systems; to apply basic and special knowledge in the field of developing and using cutting-edge information technologies; to carry out an exploratory design and complex analysis in subject areas; to carry out all necessary stages of designing information systems for different fields of activity; to use advanced software products and technologies supplied by world s class companies; to develop special-purpose software in modern programming languages (С++, С#, Java, SQL, PHP, etc.); to use database and knowledge base design techniques (Microsoft Access, MS SQL Server, MySQL, etc.) and operating systems Microsoft Windows, Unix, Linux, etc. CAREER OPPORTUNITIES Potential employers: The career opportunities cover a broad range of small and medium businesses; major Russian and international companies specialized in IT development, production of different information and geographic information systems. Graduates of the programme have the opportunity of continuing their study for the postgraduate degree and starting a successful career in the field of developing and using information technologies. Potential employers: Vostokgazprom JSC (Tomsk); EleSy Company (Tomsk); INCOM Group (Tomsk); Intant Group (Tomsk). 130

131 Institute of Cybernetics tpu.ru COURSE STRUCTURE Core units Research methods and Simulation of Information Processes and Technologies Neuroevolutional Computing Foreign Language for Specific Purposes System Engineering Contemporary Issues of Information Processes and Technologies Selected Chapters of Mathematics Statistical Approach to Data Processing Theoretical Geoinformatics Theory of graphs Philosophical Issues of Science and Engineering Subject Area Units (Specified Electives) Geographic information Systems Philosophical Issues of Science and Engineering Multimedia Technologies Internet GIS Software Intelligent Geographic Information System Design Data Interpretation Systems of Satellite and Aircraft Monitoring Project Management of Software Design Databanks CONTACT INFORMATION: Academic Curriculum Supervisor Markov Nikolay Grigorievich Doctor of Engineering Science Head of the Department of Computer Engineering, Tel: +7 (3822) portal.tpu.ru/shared/m/markovng 131

132 Institute of Cybernetics Applied Informatics Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of specialists who are able to successfully solve any problems based on advanced information and communication technologies; involvement of leading IT specialists, manufacturers, professors (including foreign ones) in the training process; internship in major leading companies, summer schools (including foreign ones). TRAINING OUTCOMES The core competencies of the master include the following abilities: needs of a company on the basis of the advanced information and communication technologies and, taking such needs into account, to develop an IT strategy, a information system concept and its functional specifications; to carry out design, administrative, production, analytical, and research activities for development of information systems at different stages of its life cycle; to manage information systems, services, corporate information resources, and rendering of information services for increasing efficiency of core activities; to coordinate different activities associated with development, implementation, and operation of corporate control information systems; to research and apply advanced information consulting and information marketing techniques; to analyze and optimize application and information processes; to use and develop research methods in the field of design and management of information systems; to select appropriate methods and techniques for designing information systems taking into account project risks under uncertainty conditions. CAREER OPPORTUNITIES Employment areas: The programme for a master s degree Corporate Management Systems is designed for training IT specialists for the national economy, as well as governmental and municipal authorities. The graduates are able to develop advanced information technologies and, based on them, to improve efficiency of core activities of corporations, credit institutions, management bodies, etc. The good domain knowledge, in combination with deep knowledge and skills of practical work in the field of information and communication technology, create the competitive advantages, which determine a stable high demand for the graduates, their career advancement, and high income level. Career opportunities (potential jobs): specialist in development and operation of information systems; manager of projects for development and implementation of corporate information systems in 132

133 Institute of Cybernetics tpu.ru different fields of their activity; systems analyst; IT project consultant; IT service director. Graduates work in Higher Education institutions, Tomsk Scientific Center SB RAS, OJSC TomskNIPINeft VNK (Tomsk), EleSy Company (Tomsk), JSC Tomskneft, Elecard company, companies and firms which develop and implement telecommunication systems. COURSE STRUCTURE Core units Business Process Analysis and Simulation Corporate Information System Safety Enterprise IT infrastructure Corporate Information Systems Mathematical and Instrumental methods of Decision Support Mathematical Simulation Design techniques of Information Systems Design of electronic data management systems Foreign Language for Specific Purposes Design Technologies of Network Corporate applications Description Language of Information in Network Corporate applications Языки описания информации в корпоративных сетевых приложениях Subject Area Units (Specified Electives) Профиль «Системы корпоративного управления» Intelligent Data Processing (Database Mining) Corporate Network Design Corporate Management Technologies CONTACT INFORMATION: Academic Curriculum Supervisor Rotar Viktor Grigorievich Assistant Professor of the Department of Control System Optimization; Tel: +7 (3822) portal.tpu.ru/shared/r/rvg 133

134 134 Institute of Physics and Technology

135 Institute of Physics and Technology tpu.ru INSTITUTE OF NON-DESTRUCTIVE TESTING The Institute of Non-Destructive Testing is developing as an international, research, educational and innovation centre in the field of non-destructive testing and diagnostics to improve the safety and efficient use of equipment and facilities of the real sector of the economy, including the space instrument making, oil and gas industry. Training at the Institute is engaged with the development of innovative methods of quality control and ensuring technosphere security, development of electronic and optoelectronic devices, flaw detectors, computer measuring systems and complexes, navigation systems, as well as the creation of new automated processes of engineering productions, based on different methods of materials processing. The graduates of the INDT are in demand in different branches power energy, aerospace and nuclear industries, transportation, medicine, exploration and oil and gas management, at instrument-making and electromechanical plants, in the structure of Emercom of Russia and environmental services. Research priorities: theoretical research and development of non-destructive methods and instruments for monitoring the quality of industrial products, materials and constructions. The faculty of the INDT: 176 research and academic employees, including 103 PhDs, 31 higher PhDs, 4 academicians of RAS. YURGA INSTITUTE OF TECHNOLOGY, TPU AFFILIATE (ENGINEERING AND TECHNOLOGY) The task of Yurga Institute of Technology (YIT) is to provide engineering complex of Kuzbass area with qualified engineering personnel with enhanced practical training. The preparation of practice-oriented engineers is carried out on the base enterprise Yurginsky Machine Engineering Plant. The Institute includes 7 academic buildings, where more than 70 laboratories equipped with modern equipment and devices for technical training are located. During its existence YIT trained over 3000 professionals. Preparing graduates in Yurga Institute of Technology of Tomsk Polytechnic University is carried out according to an integrated system that makes closer education and production. The educational process is characterized by rotation of normal semesters, when students are taught by full-time mode, and working semesters when students combine learning with part-time work at the base enterprise. The YIT graduate has got not only a full understanding of a chosen specialty, but also has knowledge, skills and production expertise, allowing more successfully adapt to the conditions of a particular company and accelerate their career growth. The faculty of the YIT: 202 research and academic employees, including 101 PhDs, 38 higher PhDs. 135

136 Mechanical Engineering Institute of Non-Destructive Testing Bachelor s Degree Programme Subject Area «Welding Production Technology and Equipment» Full information you can see in part VI Bachelor Duration: 4 years Bachelor Instrument making Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: acquisition of broad range of knowledge in the field of measurement transformation, information technologies, information and measurement systems of a target industry, existing methods and means of measurement and production management, and trends of their development. TRAINING OUTCOMES Competences gained: ability to collect and analyse scientific and technical information, adapt to the latest development trends and integrate advances of national and international science and technology into professional activity; skills of applying state-of-the-art software for drawing up and editing design-and-engineering and process flow documentation, knowledge of basics of descriptive geometry and engineering graphics; skills of participating in elaboration of functional and structural diagrammes of instruments; promptness in designing standard units and nodes while applying standard means of computer-aided design; ability to participate in the planning of production of devices having various functions and modes of operation; skills of ensuring metrological support of the processes of production of instruments and their components, of applying standard methods of testing qualities of the output and parameters of production processes; skills of designing, adjusting and customising programmes and their units to solve certain instrument-making tasks; experience of calibrating, adjusting and pilot testing of certain types of instruments and systems both in laboratories and instrument-making sites; knowledge of methods of output quality testing including implementation of quality management systems. CAREER OPPORTUNITIES Employment areas: management relying on the latest methods of management in various fields of scientific and research, commercial, technical activity along with international co-operation. Potential employers: electronics and radioelectronics industries, metal manufacturers, chemical production enterprises, computation engineering enterprises; aerospace instrument making enterprises; power industries, medical industries; and research institutes; regional metrology and standardisation departments; quality management services; centres for certification. Career opportunities include: metrologist; research fellow; teaching assistant; junior designer; engineering technologist; instrument maintenance man; software specialist; electronics engineer; instrument maintenance engineer; measuring instrument supervisor; instrumentation setup man; instrument man; calibrating and pilot testing technician; design technician. 136

137 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units History Philosophy Foreign language Economics Mathematics Physics Physical basics of information acquisition Computer science Chemistry Ecology Descriptive geometry and engineering graphics Applied mechanics Materials science and construction materials engineering Metrology, standardisation and certification Basics of life safety Basics of automated control Basics of instruments and systems design Computer technologies in instrument making Electrotechnics Electronics and microtechnology Subject Area Units (Specified Electives) Instrument making Instrument mechanics History of instrument making Instrument making technology Measurement instrument designing Basics of computer-aided design systems Computer-aided design systems Automation of production process planning Electromechanical measurement and execution devices Measurement device circuitry design Electric machinery in instrument making Synthesis of automated devices Instruments for orientation and navigation Measurement theory Instrument accuracy Instruments and methods of quality and diagnostics management Materials technology. Metals, non-metals, nanomaterials Information technologies in quality management and information security Microprocessors and digital systems in instrument making Computer system networks and communication media Quality management Statistical methods of management and supervision Detection and filtration of signals in non-destructive testing Visual measurement testing Acoustic methods of testing Radiation methods of testing Electromagnetic methods of testing Physical methods of testing Establishment of quality and diagnostics services Certification preparation of quality and production systems Ad hoc and maintenance checkup Information and measurement instruments and technologies Graphics-assisted programming Basics of information electronics Basics of measurement technologies Analogue measurement devices Digital measurement devices Measurement information systems Methods and means on non-destructive testing Measurement of non-electrical quantities Smart instrumentation Computer-assisted measurement technologies Computing facilities for measurement Mathematic basics of modelling Theoretical basics of measurement and information technologies Transformation of measurement signals Digital methods of signal processing CONTACT INFORMATION: Academic Curriculum Supervisor Dmitriy V. Milyaev PhD in Technical Sciences, associate professor of Department of Information-Measuring Engineering of Institute of Non-Destructive Testing Tel. +7 (3822) ; 137

138 Institute of Non-Destructive Testing Biotechnical Systems and Technology Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: participation in design-and-engineering as well as in scientific-and-research activities within the framework of execution of genuine projects devoted to the creation of new workable bio-technical systems and technologies; education process and student scientific elaboration process and field trips facilitated via the state-of-theart equipment provided by Tomsk Polytechnic University, Siberian State Medical University, Medtekhnika OJSC (Tomsk, Russia), Institute of High Current Electronics and Institute of Atmospheric Optics of Tomsk Scientific Centre of Siberian branch of Russian Academy of Sciences, resident companies of Tomsk special economic zone of technical-innovative type, innovation enterprises of Tomsk and Siberia Region. TRAINING OUTCOMES Competences gained: knowledge of operational health and safety rules, environmental protection requirements; knowledge of the modern project management for carrying out full-fledged engineering activity with the consideration of intellectual property protection issues; apprehension of legal, social, ecological and cultural dimensions of full-fledged engineering activity; knowledge of health and life safety issues; knowledge of methods of execution of full-fledged engineering projects on development of highly efficient biomedical and environmental equipment with reference to general and special-purpose experience; ability to carry out full-fledged engineering research including search of relevant information, experiment, analysis and interpretation of data relying on basic and special-purpose knowledge and the latest methods to achieve desired goals; experience in implementation, operation and maintenance of state-of-the-art high-tech equipment in the subject area of biotechnical systems and technologies as well as the ensuring the high efficiency of the equipment. CAREER OPPORTUNITIES Employment areas: development, production and operation of biomedical and environmental equipment. Potential employers: healthcare institutions, developers and manufacturers of medical equipment, laboratories and clinics, medical centres, medical equipment vendors and maintenance service providers. Career opportunities include: technician, electronics engineer, design engineer, production planner. 138

139 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units History Philosophy Foreign language Linear algebra and analytical geometry Chemistry Ecology Physics Basics of life safety Metrology, standardisation and engineering measurements Construction and biological materials Biophysical basics of living systems Biotechnical systems for medicine Nodes and elements of biotechnical systems Technical methods of diagnostics and treatment Student scientific elaboration Electrotechnics and electronics Theoretical basics of electrotechnics Circuit theory Electronics Biotechnical systems management Basics of microtechnology Measurement transformers and electrodes Design of electronic devices for medicine Power supply of electronic devices for medicine Subject Area Units (Specified Electives) Bio-technical and Medical Systems and Devices Professional foreign language Human and animal biology Biochemistry Special physics. Physical basics of electrotechnics Methods of biomedical information processing Digital devices CONTACT INFORMATION: Academic Curriculum Supervisor Dmitriy N. Ogorodnikov, PhD in Technical Sciences, associate professor of Department of Industrial and Medical Electronics of Institute of Non-Destructive Testing Tel. +7 (3822) , 139

140 Institute of Non-Destructive Testing Electronics and nanoelectronics Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: development of professional competences in the field of design, production and operation of variouspurpose electronics; opportunity for students to participate in design-and-engineering as well as in scientific-and-research activities within the framework of execution of genuine projects devoted to the creation of new workable electronic devices, units and systems; education process and student scientific elaboration process and field trips facilitated via the state-ofthe-art equipment provided by Tomsk Polytechnic University, Research and Production Centre «Polus OJSC (Tomsk, Russia), Institute of High Current Electronics and Institute of Atmospheric Optics of Tomsk Scientific Centre of Siberian branch of Russian Academy of Sciences, resident companies of Tomsk special economic zone of technical-innovative type, innovation enterprises of Tomsk and Siberia Region. TRAINING OUTCOMES Competences gained: apprehension of the latest trends of the development of electronics, measurement and computation devices, information technologies; knowledge of methods and means of small executing groups workflow management; skills of calibrating, pilot testing and operating capacity testing measurement, diagnostic, manufacturing equipment used to achieve various scientific and technical or manufacture-related goals in the fields of electronics and nanoelectronics; knowledge of methods of preliminary definition of technical and economic feasibility of a project; ability to collect and analyse the input data for calculation and design of various-purpose electronic devices, circuits and instruments; knowledge of algorithms of calculation and design of various-purpose electronic devices, circuits and instruments in accordance with the statement of work and with application of computer-aided design means; experience in drawing up administrative and technical documentation (work schedules, instructions, plans, cost sheets) as well as standardised reporting documentation; - ability to fulfil tasks related to certification of technical facilities, systems, processes, equipment and materials; knowledge of methods of preventing occupational injuries and diseases as well as methods of preventing environmental disruption; knowledge of rules of installing, pilot testing and commissioning trial samples of materials and items of electronics; skills of maintenance servicing of measurement, diagnostic, manufacturing equipment; ability to carry out operational check of equipment 140

141 Institute of Non-Destructive Testing tpu.ru performance, routine inspection and repairs; knowledge of means of drawing up equipment and software operation manuals for staff as well as means of drawing up spare parts and materials purchase requisitions. CAREER OPPORTUNITIES Employment areas: set of activities directed at theoretical and experimental research, mathematical and computeraided modeling, designing, producing, operating and utilising materials, spare parts, electronic devices as well as various-purpose vaccum, plasma, solid-state, microwave, optic, micro- and nanoelectronics. Potential employers: enterprises and institutions of all forms of ownership working in the field of innovation technologies, development, production and operation of various types of electronics. Career opportunities include: electronics engineer, design engineer, production planner. COURSE STRUCTURE Core units History Philosophy Foreign language Chemistry Ecology Mathematics Linear algebra and analytical geometry Differential calculus Integral calculus Differential equations Descriptive geometry and engineering graphics Basics of life safety Metrology, standardisation and engineering measurements Theoretical basics of electrotechnics Materials and elements for electronics Condensed matter physics Circuitry design Physical basics of electronics Nanoelectronics Basics of electronic component technology Basics of electronic component design Legal studies Professional foreign language Economics and production management Economics Business economics Computer science Methods of analysis and calculation of electronic circuitry Mathematic basics of signal processing Magnetic elements of electronic devices Subject Area Units (Specified Electives) Industrial electronics Basics of converter equipment Basics of microprocessor hardware Theory of automated control Microelectronics Microprocessor systems Power conversion electronics CONTACT INFORMATION: Academic Curriculum Supervisor Vitaliy V. Grebennikov, PhD in Technical Sciences, associate professor of Department of Industrial and Medical Electronics of Institute of Non-Destructive Testing Tel. +7 (3822)

142 Institute of Non-Destructive Testing Quality Management Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: training of experts in the field of living standards able to draw up new standards and create modern technologies in the field of quality of output and worldwide competitive systems. TRAINING OUTCOMES Competences gained: knowledge of monitoring methods in the field of quality improvement; skills of applying methods of quality management; apprehension of methods, principles and rules of drawing up and application of standard technical documentation referring to quality of processes, goods and services; knowledge of strategies of taking preventive and remedial measures aimed at improvement of quality of processes, goods and services as well as of process regulation and audit approaches; knowledge of basic profession-oriented applied software and information technologies; knowledge of advancement evaluation methods in the field of quality improvement; skills of quality management; ability to apply task-oriented methods of analysis, synthesis and optimisation of quality assurance processes; experience in drawing up documentation related to creation of quality assurance system and its effectiveness control; skills of correctly defining activity-oriented tasks, establishing task interrelation, modelling task clusters, analysing and stating problem causes; experience of small-number staff management; knowledge of non-destructive testing means for quality management. CAREER OPPORTUNITIES Employment areas: development, implementation and corporate support of quality management systems. Potential employers: various-activity enterprises and institutions of all forms of ownership. Career opportunities include:: quality engineer, quality manager. 142

143 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units History Foreign language Philosophy Ecology Basics of life safety Computer science Dataware and databases Information technology for management Information technologies in quality management and information security Economics Technology and management of goods production and services provision processes Management Marketing Mathematics Linear algebra and analytical geometry Differential calculus Differential equations. Series and comprehensive analysis Physics Statistical methods of quality management Overall quality management Process management Metrology, standardisation and certification Methods and means of quality management Physical education Professional foreign language Legal studies Special computer science Computer system networks and communication media Business economics Paperwork management Theory of management Strategic management Financial and management accounting Managerial decision elaboration Signal processing Basics of system analysis Mathematical treatment of measurements Basics of quality assurance Descriptive geometry and engineering graphics Materials science and construction materials engineering Subject Area Units (Specified Electives) Quality management in engineering and production systems Physical methods of control Methods and means of measuring, pilot testing and control Basics of academic curriculum Certification preparation of quality and production systems Human resource management Quality audit Quality system certification Qualimetry CONTACT INFORMATION: Academic Curriculum Supervisor Anatoliy P. Surzhikov Doctor of Physics and Mathematics, science deputy head, head of Department of Physical Methods and Instruments of Quality Management of Institute of Non-Destructive Testing; Tel. +7 (3822)

144 Institute of Non-Destructive Testing Safety in Technosphere Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: training assisted by practitioners in the field of environmental protection and management; education process facilitated via special-purpose research and scientific centres, such as laboratory environmental protection and laboratory of environmental medium analysis; high rates of academic mobility; enhancement of students foreign language, communication and professional skills and knowledge due to their active participation in international student exchange programmes. TRAINING OUTCOMES Competences gained: knowledge of basic methods and systems of safety in technosphere; apprehension of prospect of technology development aimed at human and environment protection from natural and man-caused hazards; knowledge of hazard impact on human as well as of specifics of human body response to habitat hazards; apprehension of specifics of hazardous substance poisonous effect as well as of hazardous factors energetic impact and combined effect; skills of carrying out organisational and management activity in professional and social fields; experience of identifying environmental protection and conservation problems with the help of developed risk-oriented thinking; ability to reasonably select available devices, systems and methods to ensure human and environment from hazards protection; knowledge of ways to solve professional activity tasks within research and scientific working group. CAREER OPPORTUNITIES Employment areas: environment protection inspection within construction of industrial, military or other projects; environment management monitoring; industrial wastes recycling, disposal and use supervision; human safety assurance in every-day life and emergencies. Potential employers: manufacturing enterprises, state environmental agencies, subdivisions of the EMERCOM of Russia, environment design and audit companies. Career opportunities include: expert/dispatcher, emergency rescue service worker, civil defense and emergency situations, fire, work safety and safety measures engineer, environmental engineer, state environmental agencies expert, environmental auditor. 144

145 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units Foreign language History Philosophy Economics Advanced mathematics Computer science Physics Theory of combustion and explosion Chemistry Ecology Noksology Metrology, standardisation and certification Biomedical basics of life safety Reliability of technical systems and man-caused risk Basics of life safety Safety management in technosphere Supervision and inspection in the field of safety Innovation marketing Basics of corporate ethics and culture Legal support of target industry business Emergency medicine Second foreign language (German, French) Russian language and culture of speech Engineering entrepreneurship Military training CONTACT INFORMATION: Academic Curriculum Supervisor Sergey V. Romanenko Doctor of Chemistry, head of Department of Ecology and Basic Safety Tel.: +7 (3822) , Subject Area Units (Specified Electives) Environmental engineering Industrial ecology Processes and instruments of environment protection Theoretical basics of environment protection Environment management and conservation economics Environmental inspection and audit Methods and instruments of environment testing and monitoring Low-waste and energy-efficiency technology Environmental impact evaluation Environment conservation management Environment chemistry Emergency protection Mathematic modeling of emergency processes Organisation and implementation of rescue works Communication and notification systems Radioactive and chemical hazards protection Fire and explosion hazards protection Rescue works safety Material support Strategies of forces of Unified State System of Prevention and Management of Emergencies and Civil Defense Stability of economic activity facilities during emergencies Psychological stability during emergencies Rescue equipment and machinery Materials science and construction materials engineering 145

146 Institute of Non-Destructive Testing Master s Degree Programme Mechanical Engineering Master Duration: 2 years Subject area «Welding Production Technology and Equipment» Full information you can see in part IV Instrument making Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: participation in scientific-and-research activities to develop new instruments and methods of measurement, testing and diagnostics, systems of orientation and stabilisation of objects, geophysical equipment and borehole instrumentation; education process facilitated via the state-of-the-art equipment and human resources provided by Research Institute of Introscopy, Research and Education Centre of Non-Destructive Testing and Regional Evaluation Centre for staff of Tomsk Polytechnic University; Tomsk Scientific Centre of Siberian branch of Russian Academy of Sciences, resident companies of Tomsk special economic zone of technical-innovative type; training and scientific work at Fraunhofer Institute of Non-Destructive Testing of Saarland University (Germany). TRAINING OUTCOMES Competences gained: ability to work for small and medium-sized businesses, large international companies engaged in development and utilisation of instruments of measurement, testing and diagnostics; promptness in using the latest methods and means to design instruments of measurement, testing and diagnostics; skills of team work and project management; ability to independently prepare and implement various-level scientific projects and international scholarships; knowledge of professional foreign language. CAREER OPPORTUNITIES Employment areas: scientific research, design and engineering of new instrumentation, management in various areas of science and technology with innovative approaches to development of complex equipment and instruments of measurement, testing and diagnostics. Potential employers: research institutes of the Russian Academy of Sciences, research institutes engaged in development of new methods and means of testing and diagnostics; pipeline transportation enterprises; oil and gas exploration and production enterprises; aerospace and defense industries; enterprises employing state-of-the-art hightech automated production lines. Career opportunities include: design engineer;, engineering technologist; research engineer; directed-drilling engineer; engineer of geotechnical study of oil and gas boreholes; nondestructive testing inspector; metrology engineer, etc. 146

147 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units Methodological issues of modern science Current problems and innovations of instrument making Planning and establishing of scientific-and-research and design-and-experimental works Professional foreign language Information technologies in instrument making Mathematic modelling in instrumentation systems Theory and methods of teaching technics Business planning in instrument making Modern communication systems Metrological support of measurement, testing and diagnostics Subject Area Units (Specified Electives) Computer-aided design systems in instrument making Computer-aided design systems improvement Computer-aided design systems development Methods and means of computer information protection Operating systems, networks and databases Advanced language programming Mathematic modelling in instrumentation systems Automation of designing and engineering CALS technologies Orientation, stabilisation and navigation systems Movable objects orientation, stabilisation and navigation systems Gyroscopes and accelerometers based on new physical principles Information transfer and processing Metrological support and orientation and navigation systems testing Inertial and integrated navigation systems Automation of designing and engineering Design and production of orientation instruments and systems Instruments and methods of quality management and diagnostics Chemical and physical methods of testing Radiation testing and diagnostics Magnetic, electric and eddy-current testing and diagnostics Acoustic testing and diagnostics Penetrant control Radio-wave and thermal testing and diagnostics Economic and legal issues of non-destructive testing and diagnostics Information and measurement instruments and technology of non-destructive testing Production process technological testing Non-destructive testing and diagnostics Multimedia technologies Uncertainty of measurement and testing Computer processing of signals of non-destructive testing measurement instruments Design of microprocessor measurement instruments Computing facilities of non-destructive testing Measurement information technologies Measurement converters in testing instruments Multimedia technologies Digital processing of signals Virtual measurement instruments Error theory Digital programmable electronic devices Means of measuring and computing devices integration in measurement and information engineering CONTACT INFORMATION: Academic Curriculum Supervisor Valeriy N. Borikov Dr in Technical Sciences, head of Department of Precision Instrument Making of Institute of Non- Destructive Testing; Tel. +7 (3822)

148 Institute of Non-Destructive Testing Biotechnical Systems and Technology Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training of highly-qualified personnel capable of providing innovative development and enhancement of up-and-coming production areas as well as of agencies engaged in development, production and operation of biomedical and environmental equipment with the help of high-tech science-intensive production facilities, new information technologies, integration of designing and management, high-tech diagnostics and treatment. TRAINING OUTCOMES Competences gained: ability to design biomedical and environmental instruments, devices and systems with the consideration of certain requirements; skills of drawing up design-and-engineering documentation in accordance with standard requirements; ability to design processes of biomedical and environmental equipment production via computeraided systems of production planning; skills of drawing up process flow documentation for biomedical and environmental instruments, devices and systems under design; ability to provide personal support on the stages of design and production of instruments, devices and systems under design; ability to carry out modelling of physical, phenomenological, mathematical, information and structural of biological objects and processes, estimate the level of their validity, outline the set of independent indicators typical of the biological object and process under research; ability to carry out biomedical, environmenttargeted and ergonomic experiments, to collect, process, range and analyse research outcomes; ability to carry out technical and economic as well as functional and cost-effective analysis of market competitiveness of a unit under design; skill of drawing up documentation for creation and development of enterprise quality management system; skills of teaching in secondary vocational and higher education institutions within the given programme subject area under the supervision of professor, associate professor or senior instructor. CAREER OPPORTUNITIES Employment areas: development, production and operation of biomedical and environmental equipment as well as production of interdisciplinary areas (engineering, medicine, biology, health care). Potential employers: national and international enterprises engaged in development of new medicine-oriented technologies and goods; health care institutions provided with stateof-the-art medical equipment. Career opportunities include: design engineer, production planner, head of production division. 148

149 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units Methodological problems of modern science Mathematic modeling of biological processes Bio-technical systems and technologies Modern problems of biomedical and environment engineering Methods of mathematic processing of biomedical data Basics of medico-engineering enterprise marketing and management Automation of experiment data processing Laser systems in medicine Medical imaging instruments Subject Area Units (Specified Electives) Bio-Medical Systems and Devices Professional foreign language Design of electronic devices for medicine Testing of safety and reliability of medical equipment Application of ultrasonic measurements in medicine Computer technologies in bio-medical research Microprocessor systems of management and testing Information processing and display systems CONTACT INFORMATION: Academic Curriculum Supervisor Gennadiy S. Evtushenkov Doctor of Engineering, head of Department of Industrial and Medical Electronics of Institute of Non- Destructive Testing; Tel. +7 (3822)

150 Institute of Non-Destructive Testing Electronics and nanoelectronics Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: opportunity to participate in genuine scientific elaborations and projects of Tomsk Polytechnic University, research institutes (Institute of High Current Electronics of Siberian branch of Russian Academy of Sciences (Tomsk, Russia), Institute of Atmospheric Optics of Siberian branch of Russian Academy of Sciences (Tomsk, Russia), Institute of Optical Monitoring of Siberian branch of Russian Academy of Sciences (Tomsk, Russia), etc.), research and production centres ( Research and Production Centre «Polus (Tomsk, Russia), Research and Production Enterprise Tomsk Electronic Company LLC (Tomsk, Russia), EleSi CJSC (Tomsk, Russia), etc.), industrial enterprises ( Tomskneftekhim LLC, Tomsk Gazprom OJSC, Tomsk Beer OJSC, etc.) as well as involve state-of-the-art equipment while carrying out scientific elaborations and projects. TRAINING OUTCOMES Competences gained: ability to independently acquire new research methods in conditions of continuous enhancement of hardware components and physical principles of modern hardware components functioning; promptness in searching, processing, analysing and ranging scientific and technical information on the research topic, in choosing methods and means of task solutions, in developing mathematic models and their experimental testing; ability to come up with suitable solutions while designing nanoelectronic devices in accordance with the requirements on quality, reliability, cost efficiency and environment safety; skills of designing in professional sphere on the basis of comprehensive approach using models to describe modern nanoelectronic device functioning; experience in carrying out innovative activity. CAREER OPPORTUNITIES Employment areas: : design and production of industrial electronics such as electrophysical units, electrophysical unit power suppliers, industrial process and electrophysical unit control systems; implementation of the latest breakthroughs in industry. Potential employers: enterprises and institutions of various forms of ownership working in the field of innovation technologies, development, production and operation of various types of electronics; research institutes. Career opportunities include: engineer; design engineer; electronics engineer. 150

151 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units Methodological issues of modern science Methods of mathematic modelling Current problems of modern electronics and nanoelectronics Computer technologies for scientific research Design and engineering via hardware components Philosophical issues of science and technology Industrial electronics Professional foreign language Information processing and display systems Subject Area Units (Specified Electives) Electronic instruments and devices Computer-aided design of electronic devices Electromagnetic compatibility of electronic devices Controlled transformers dynamics Voltage and current modulation generators Electronic systems of testing, management and diagnostics in engineering and medicine Technical support of automation and control Microprocessor system interface Hardware and software for analogue signal processing Programmable logic circuitry CONTACT INFORMATION: Academic Curriculum Supervisor Aleksey I. Soldatov Doctor of Engineering, professor of Department of Industrial and Medical Electronics of Institute of Non- Destructive Testing; Tel. +7 (3822) , 151

152 Institute of Non-Destructive Testing Quality Management Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training to carry out professional activity connected with establishment of effective work on applied production and managerial processes quality management, control and enhancement of output quality. TRAINING OUTCOMES Competences gained: ability to find practical application of skills of research and design works arrangement as well as of team management; skills of sure-handed utilisation of modern equipment and instruments; skills of planning and arranging executive team work as well as of coming up with suitable decisions in emergency conditions; knowledge of methods of drawing up scientific-andresearch and design-and-experimental works timetable as well as of controlling timetable-fixed work flow; experience in drawing up and referring to standard technical documentation related to creation of quality assurance system and its effectiveness control. CAREER OPPORTUNITIES Employment areas: development, study, implementation and corporate support of quality management systems covering the whole set of processes. Potential employers: various-activity enterprises and institutions of all forms of ownership carrying out their activity in such areas as industry, agriculture, power engineering, transportation, trade, medicine, education, and others. Career opportunities include: quality engineer, quality manager. 152

153 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units Philosophical issues of science and technology Professional foreign language Economic law Basics of experiment theory Quality audit Economics of quality Software systems in quality management Quality management methods and means Risk assessment Quality functions deployment Subject Area Units (Specified Electives) Quality management in engineering and production systems, Quality management in production systems (DD) Project management Business processes modelling and management Metrological support of measurements, control and diagnostics Safety of technical facilities and man-caused risks Balanced score card Industrial and integrated quality management systems CONTACT INFORMATION: Academic Curriculum Supervisor Anatoliy P. Surzhikov Doctor of Physics and Mathematics, science deputy head, head of Department of Physical Methods and Instruments of Quality Management of Institute of Non-Destructive Testing; Tel. +7 (3822)

154 Institute of Non-Destructive Testing Safety in Technosphere Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: training assisted by practitioners in the field of environmental protection and management who are involved in outlining professional tasks to be solved within production process; opportunity to obtain double degree in subject area Sustainable technology and business provided in cooperation with Lappeeranta University of Technology (Finland); high rates of academic mobility; enhancement of students foreign language, communication and professional skills and knowledge due to their active participation in international student exchange programmes. TRAINING OUTCOMES Competences gained: ability to carry out team work within innovative activities in the field of industrial ecology and environmental management based on mutual cooperation of education, science and business; skills of providing effective control and management of processes of minimizing industry-caused impact on biosphere; ability to arrange technosphere monitoring and on its basis forecast and detect zones of high man-caused risk as well as zones of high pollution; promptness in using the latest methods and means to elaborate finance-efficient and energy-efficient environmentally-friendly technologies; skills of team work and project management; knowledge of professional foreign language. CAREER OPPORTUNITIES Employment areas: environmental engineering and environmental management. Potential employers: enterprises whose activity is related to environment; industrial enterprises; research and design institutes engaged in creating new methods and systems of human and environment protection; power agencies and bodies carrying out environmental supervision and inspection in the field of environment management and economic activity of enterprises. Career opportunities include: risk manager; head of department or division; civil defense and emergency situations, fire, work safety and safety measures engineer; environmental engineer; state environmental agency expert; environmental auditor, higher education institution instructor. 154

155 Institute of Non-Destructive Testing tpu.ru COURSE STRUCTURE Core units Information technologies in the field of safety Safety economics and management Risk assessment, comprehensive analysis and modelling Safety evaluation Safety monitoring Calculation and design of safety assurance systems Management of man-caused impact on environment Biological methods of environment protection Modern methods of water conditioning for industrial and household use Standardization and certification in the field of environment conservation Subject Area Units (Specified Electives) Environmental engineering and environmental management Professional foreign language Modern problems of science in the field of environment protection Philosophical issues of science and technology Protection of hydrosphere against man-caused impact Environment impact evaluation Methods of atmosphere protection against hazardous emissions Management of industrial and household waste generation and disposal CONTACT INFORMATION: Academic Curriculum Supervisor Olga B. Nazarenko Doctor of Engineering, professor of Department of Ecology and Basic Safety; Tel. +7 (3822)

156 YURGA INSTITUTE OF TECHNOLOGY, TPU AFFILIATE (HUMANITIES, SOCIAL SCIENCES) Information about institute you might see on page 135

157 INSTITUTE OF HUMANITIES, SOCIAL SCIENCES AND TECHNOLOGIES The Institute of Humanities, Social Sciences and Technologies (IHSST) is a training school in the field of economics, management, public relations, innovations, and management of human resources. The organic combination of economic, administrative, legal, humanitarian and social sciences within the IHSST is a distinctive feature of the training of specialists with such competitive advantages as creativity, competence, mobility and pushfullness. The Institute includes: the Department of Economics with a 110- year history, the Department of Management celebrated the 60- year anniversary in 2012, the Department of History and Regional Studies, the Department of Philosophy, the Department of Sociology, Psychology and Law, the Department of Cultural Studies and Social Communication, the Department of Engineering Entrepreneurship, the Department of Organization and Technology of Higher Education, as well as the Department of Physical Education and Sports Disciplines. IHSST graduates work in education, tourism, municipal and business structures, and social institutions. The faculty of the IHSST: 402 research and academic employees, including 155 PhDs and 41 higher PhDs. INSTITUTE OF INTERNATIONAL EDUCATION AND LANGUAGE COMMUNICATION The Institute of International Education and Language Communication (IIE&LC) is one of the largest divisions of TPU providing teaching Russian and foreign languages for students of all institutes. A special function of the Institute is presentation of TPU in the international market of educational services. Knowledge of a foreign language makes graduates competitive in the international labor market. Every year, thousands of highly skilled engineers and specialists trained at the TPU, get a job in multinational corporations: Hewlett-Packard, Samsung Electronics, Intel, General Electric, British Petroleum and Shell, etc. The Institute plays a special role in the development of a multilingual multicultural environment, which develops due to the annual enrolment of students from all regions of the world (Vietnam, China, South Korea, India, Thailand, Mongolia, Indonesia, Japan, Germany, Czech Republic, Italy, Poland, France, Switzerland, Austria, Spain, Canada, Colombia, United States, Australia, Brazil, Ecuador, Egypt, Iraq, Iran, Turkey, Nigeria, Ghana, Congo, Zimbabwe) and improved through the exchange of best educational and academic experience, skills of tolerant intercultural communication. In order to develop a multilingual multicultural environment of the University there were formed the traditions of festivals, languages and cultures decades, roundtables and seminars, which take place in the format of cultural events dedicated to national and state holidays in different countries. This creates conditions for the development of tolerance, interethnic communication between representatives of different cultures and language practice for students studying foreign languages and cultures. The faculty of the IIE & LC: 124 research and academic employees, including 66 PhDs and 3 higher PhDs. 157

158 Economics Institute of Humanities, Social Sciences and Technologies Bachelor s Degree Programme Institute of Humanities, Social Sciences and Technologies Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: preparing the next generation of specialists for work in enterprises of different pattern of ownership engaged in the production and sale of the finished commodity the opportunity to study a (Magistr) Master degree programme or start building a successful career in the Russian economy. TRAINING OUTCOMES Competences gained: capability of keeping financial records and accounts in enterprises of different pattern of ownership, organizations, agencies and local authorities ability to research, analyze, and forecast major trends in the domestic and global economy, industry and regional markets; to analyze financial and economic activities of enterprises and organizations basic knowledge of the management activities during the implementation of specific economic projects mastering the techniques of teaching activities in educational institutions of primary vocational, secondary vocational, higher vocational, and further vocational education. CAREER OPPORTUNITIES Employment areas and potential employers: Economic, financial, marketing, operating, and analytical divisions of organizations of various industries and of different pattern of ownership Financial and lending institutions, insurance companies Governmental and local authorities Academic institutions and research universities and colleges sponsored by government agencies Educational institutions of primary vocational, secondary vocational, higher vocational, and further vocational education. Career opportunities include: Head of the enterprise Economist-general Head of the Economic Planning Department. 158

159 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Microeconomics Macroeconomics Money, Credit, Banking Econometrics Management Marketing Global Economy and International Relations Social Sector Economics Labour Economics History of Economic Thought Statistics Accountancy National Economy Business Economics Institutional Economics Taxes and Taxation Financial Management Accounting Information Technologies Student Academic Research CONTACT INFORMATION: Academic Curriculum Supervisor Marina V. Ryzhkova PhD, Associate Professor of the Department of Economics, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822) Subject Area Units (Specified Electives) Accounting, Analysis, and Audit Real Estate Economics Accounting and Financial Statements Audit Management Accounting Business Analysis Accountancy in Financial and State-financed Institutions Macroeconomic Planning and Forecasting Industrial Economics System of National Accounts Macroeconomic Planning and Forecasting Innovative Economics Spatial Planning State Regulation of National Economy Business Economics Organization of Innovative Activity of the Enterprise Enterprise Planning Financial and Technical Audit Cost Management Analysis of Financial and Economic Activity Enterprise Value Estimation and Management 159

160 Institute of Humanities, Social Sciences and Technologies Management Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: preparing the next generation of managers-generalists for different practice areas: manufacturing, trade, services able to effectively manage the organization that operates both in the domestic and international markets in a rapidly changing external environment the opportunity to study a (Magistr) Master degree programme or start building a successful career in the Russian economy. TRAINING OUTCOMES Competences gained: skills in the development and implementation of corporate, competitive, and functional (marketing, finance, human resource, etc.) organizational strategy skills in planning activities of organizations and departments ability to plan and provide operational management in the IT departments of organization, to organize an internal information system of organization for the collection, storage, and processing of information in order to make effective management decisions and plan organization and control activities ability to simulate the information flow in the business processes of organizations. CAREER OPPORTUNITIES Employment areas: businesses of any business entity bodies of state and municipal government structures in which the graduates are entrepreneurs the scope of the private enterprises and joint ventures (small and medium businesses) advertising and marketing agencies real-estate agencies consulting firms and investment companies publishing houses stock markets bodies of state and municipal government. Career opportunities include: Economist, manager, leading specialist of plannedeconomic and management departments of business Executive, manager in various services of the state apparatus and regional governance Executive of the lower level in applied-research institutes and developers Sole proprietor. 160

161 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Management Theory Marketing Financial Management Human Resources Management Strategic Management Corporate Social Responsibility Business English Business Planning Leadership Business Economics Logistics Management Activity Documentation Innovation Management Subject Area Units (Specified Electives) Production Management, Financial Management Industrial Engineering Innovation Marketing Public Finance and Monetary Flow Real Estate Economics Security Papers Innovative Project Feasibility Study Business Analysis Audit Bank Management Information Management Computer Design Data Protection Law Including Administrative, Civil, and Criminal Laws Information System and Institution Computer Design in Management Technetronic Paperwork Semiotics IT-Project Modeling and Management Information Security and Data Protection Small Scale Business Management Project Management Applied Marketing Global Economy and International Relations English for Specific Purposes Art of Presentation and Negotiation Business Etiquette Financial Institutions Business Administration Policies Taxation Legal Basis of Entrepreneurship International Management Project Management International Marketing The global economy and foreign trade activities CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Nataliya A. Lukyanova DSc., Department of Sociology, psychology and Law, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822) , Ekaterina Y. Kalmykova PhD, Associate Professor, Department of Management, The Institute of Humanities, Social Sciences and Technologies Tel.: +7(3822) , 161

162 Institute of Humanities, Social Sciences and Technologies Innovation Management Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: participation in regional, national and international business projects participation in research work in real innovative project implementation intensive General English and ESP (English for Specific Purposes) training. TRAINING OUTCOMES Competences gained: ability to apply mathematical apparatus, optimization methods, probability calculus, mathematical statistics, and the theory of system analysis and decision-making ability to develop computational models, to use application software packages and information and communication technologies for the solutions of professional tasks ability to formulate a technical decision for the development of the project, to select the technical resources and technologies taking into account the environmental impact of their use ability to use automation tools for the design and production preparation and to prepare a set of project documentation ability to determine the valuation of core resources and the costs of research and commercial projects implementation. CAREER OPPORTUNITIES Employment areas and potential employers: OOO Gazprom Transgaz Tomsk, KPMG company, Project Management Association Sovnet NPO The Tomsk Special Economic Zone (Tomsk SEZ) Residents (EleSI company, Contek Soft limited company RVC, Tomsk Venture Investment Fund research and development departments of companies in various fields of activity research establishments, higher education institutions (National Research Tomsk Polytechnic University, Tomsk State University of Control Systems and Radioelectronics, The Russian Presidential Academy of National Economy and Public Administration, Massachusetts Institute of Technology), specialized secondary educational establishments financial and banking enterprises (OOO AS Invest, OAO Binbank, OAO Sberbank of Russia, OAO Gazprombank, OAO Uralsib, Bank VTB 24). 162

163 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Systems Analysis and Decision Making Metrology, Standardization and Certification Innovation Project Management Entrepreneurship Experience Commercialization of Research Findings Legal Groundwork for Innovation Innovation Marketing Management Financial Management Art of Presentation Information Support of Innovative Activity Human Resources Management and Organizational Behavior CONTACT INFORMATION: Academic Curriculum Supervisor Stepan V. Khachin PhD., Associate Professor, Department of Engineering Entrepreneurship, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822) Subject Area Units (Specified Electives) Enterprise and Innovation Algorithms for Non-Standard Problem Solving Innovation Theory Innovation Technologies Innovation Management Introduction to Innovation Intellectual Property Protection 163

164 Institute of Humanities, Social Sciences and Technologies Advertising and Public Relations Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: Preparing graduates for organization of the advertising and PR services companies, organization image improvement; sales and services promotion to the market development, production and distribution of promotional products and PR texts organizing and conducting sociological and marketing research, drafting and designing materials for expert opinions and reports; writing analytical reports, reviews and forecasts. TRAINING OUTCOMES Competences gained: skills of development and implementations of public relations campaigns using advertising and PR techniques experience in the development and distribution of PRtexts and promotional products knowledge of methods of market investigation, surveys, questionnaires, and experiments in order to improve the image and competitive position of the companies, organizations, products, and services skills in positioning and promoting products, services, companies (commercial, non-profit, non-governmental organizations, government agencies) in the market. CAREER OPPORTUNITIES Employment areas: communication processes (technologies of mass, group and interpersonal communication) technologies of product, services, and companies positioning and promoting in the market technologies of opinion polling (marketing and social research). Career opportunities include: Advertising manager, chief public relations officer, PR man, media analyst, expert in media business. Graduates of this degree are socially responsible communicators, skilled in journalism and innovative technologies promotion in government institutions, autonomous bodies, non-state and commercial organizations, social services, and media world. 164

165 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Sociology of Mass Communication Psychology of Mass Communication Theory and Practice of Mass Media Advertising in Communication Process Basics of Public Relations Basics of Management Organizational Management in Advertising and PR Agencies Marketing Fundamentals Marketing Research and SWOT Analysis World Culture and Art History of Domestic Mass Media Conflict Management Design in Advertising Principles of Cost Accounting Work with PR Texts Construction of Advertising Branding Basics of Business Management Cross-Cultural Communication Advertising Creativity Subject Area Units (Specified Electives) Advertising and Public Relations in Commercial Sector Copywriting Basics of Media Planning Business Advertising and PR. Masterclass Basics of Reputation Management Crisis PR Information Technology Consulting Information and Telecommunication Technology in Advertising and PR Analytical Documentation in Advertising and PR Market Analysis of Innovative Technologies CONTACT INFORMATION: Academic Curriculum Supervisor Ludmila V. Karlova PhD, Associate Professor of the Department of Culture Studies and Social Communication, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822)

166 Institute of Humanities, Social Sciences and Technologies Foreign Area Studies Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: preparation for professional translation of official and business documents in English and languages of area specialty (Chinese, Japanese, Korean) study of history, political science, ethnology, culture and economy of the country/region to conduct a comprehensive analysis of the processes of inter-regional cooperation between Russia and the country/ region of specialty teaching strategies and techniques for effective communication with the public authorities, companies, and business organizations in eastern Asia. TRAINING OUTCOMES Competences gained: ability to make a detailed description of the region of specialty, taking into account its physical and geographical, historical, political, social, economic, demographic, linguistic, ethnic, cultural, religious, and other features ability to analyze internal and external factors affecting the formation of foreign policy of the region of study and highlight key trends and patterns of evolution of their foreign policy ability to identify the main trends in the world economy, to evaluate different approaches to the problem of incorporating region of study in the global economic system ability to independently interpret and give a general assessment of various scientific interpretations of regional events, phenomena and concepts in the national, inter-regional and global context mastering the basics of the generally accepted system of transliteration of proper names and place names in the area of specialty language (s) and the systematic use of it in professional activity. CAREER OPPORTUNITIES Employment areas: The graduates successfully work in public administration bodies, diplomatic missions and consular offices, travel agencies, chambers of commerce, advertising agencies, research centres and universities. Career opportunities include: Expert, consultant, analyst, manager, interpreter, specialist in the international department of the production company that collaborates with partners from the Asia-Pacific region. 166

167 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Research Principles Cultural Studies Political Science History of Russian International Relations and Foreign Policy Sociology General Management Political Region Studies International Relations and Geopolitics of Modern World World History Global Economy and Foreign Economic Policy Political Insides of Russia Modern Culture of East Asia International Law Information Networks and Databases for Foreign Area Studies Office Technologies and Document Control Subject Area Units (Specified Electives) Asian Studies Language of the Area of Specialty Recent History of East Asia Foreign Policy of East Asia Economy and Economic Geography of East Asia Political Geography of East Asia State Law of East Asian Countries Political Image of East Asia Special Economic Zones in East Asia Culture, Literature and Religion of East Asia Negotiations' Language and Business Letter Writing Diplomatic and Consular Service in Russian Federation Asian Studies Chinese History, Korean History, Japanese History Chinese Sociopolitical System Korean Sociopolitical System Japanese Sociopolitical System CONTACT INFORMATION: Academic Curriculum Supervisor Nadezhda I. Guzarova PhD, Associate Professor of the Department of History and Regional Studies, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822) , 167

168 Institute of Humanities, Social Sciences and Technologies Human Resource Management Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: Training specialists for organizational, managerial, economic, analytical, project, social and psychological work in industry, commerce, transport, banking, insurance, tourism and other fields of activity, including research institutions, personnel management service of state and municipal governments, employment services and social protection services of the population of regions and cities, recruitment agencies, institutions specializing in management and human resource consulting and audit. TRAINING OUTCOMES Competences gained: knowledge of the basis for strategic human resource management; knowledge of human resource planning framework and the ability to apply it in practice; knowledge of the basics of hiring, development and implementation of programmes and procedures for recruiting and selecting staff and the ability to apply them in practice; knowledge of the principles of the personnel adaptation system, development and implementation of adaptation programmes and the ability to apply them in practice; ability to effectively organize group work based on knowledge of the processes of group dynamics and team building principles; ability to develop and apply personnel rating technologies (including certification procedure) of the different categories of staff; knowledge of the basics of optimization of work and rest, taking into account the requirements of neuroscience, ergonomics and work aesthetics for different categories of personnel; knowledge of duration and intensity of working time and rest calculation skills and the ability to apply them in practice. CAREER OPPORTUNITIES Potential employers: Human personnel departments in both public and private companies and organizations in industry, commerce, transport, banking, finance, tourism and other fields of activity research institutions personnel management service of state and municipal governments employment services and social protection services of the population of regions and cities recruitment agencies institutions specializing in management and human resource consulting and audit. 168

169 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Basics of Manpower Policy and Personnel Planning Basics of Human Resource Management Labour Law Human Resource Management Labour Economics and Sociology Psychophysiology of Professional Activity Conflictology Regulation and Work Measurement Labour Activity Incentives Human Resource Innovative Management Human Resource Documentation Support Staff Social Development Fundamentals of Management Consulting Organizational Culture and Organizational Behaviour Human Resource Marketing. Management Accounting and Human Resource Accounting Principles of Control Theory Principles of Labour Management and Labour Safety Economics of Human Resources and labour Market Basics of Financial Management. Payment for Labour Subject Area Units (Specified Electives) Human Resource Career Development Management Staff Development Managerial Psychology Leadership and Team Management Effective Communication Technologies Imagology CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Igor B. Ardashkin Department of Philosophy, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822)

170 Institute of Humanities, Social Sciences and Technologies Tourism Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: training of specialists in the sphere of tourism at the all-russian and regional level training techniques and technologies in the field of tourism activities both in the domestic and global market of holiday industry high-level theoretical training in the field of liberal arts and vocational subjects taking into account the trends of modern social development inviting leading domestic and foreign experts to make a lasting contribution to the field of tourism personnel training a high level of language training. TRAINING OUTCOMES Competences gained: ability to use innovative technology and IT to create a tourism product ability to design tour programmes, package tours, guided tours and other products of tourist activities ability to research and develop tourism products, taking into account technological, socio-economic and other requirements ability to apply modern technologies in the implementation of the tourism product ability to make operational decisions in the field of tourism activities ability to calculate and evaluate the costs of tourist activity in the enterprise ability to organize the process of customer and (or) tourist service. CAREER OPPORTUNITIES Employment areas: development and implementation of tourism product to meet the customer requirements organization of integrated tourist services in key sectors of the tourism industry. 170

171 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Tourism and Recreation Design Man and His Needs Tourist Activity Organization Information Technologies in Travel Industry Travel Industry Management Travel Industry Marketing Sales Techniques in the Travel Industry Business Communication Psychology Second Foreign Language Tour Guidance Studies Legal Control in Tourism Advertising in Tourism Tourist Resource Studies Quality Management in Tourism Practical Psychology Standardization, Certification, Licensing in Travel Industry Tourist Market Economics Kinds and Trends of Regional Tourism Development Subject Area Units (Specified Electives) Travel Agency Service Technologies Travel Agency Service Technologies Animation Technologies Tourist Country Studies Finances and Economy in Travel Industry Insurance in Tourism Innovative Technologies in Tourism Travel Industry Documentation Support Consumer Appeals for Tourist Services Tourism Planning and Analysis CONTACT INFORMATION: Academic Curriculum Supervisor Viktoriya B. Agranovich PhD, The Department of Culture Studies and Social Communication,The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822)

172 Institute of Humanities, Social Sciences and Technologies Physical Training Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme features: presence in the curriculum of many units of sports orientation, including those which take into account the climatic characteristics of the long winter period regions, contributing to the development of core competencies in the field of physical culture and sports knowledge of methods and means of gathering, synthesizing and using the information on the achievements of physical culture and sports; methods of advocacy to attract people to the sport and recreational activities. TRAINING OUTCOMES Competences gained: physical education and health education knowledge together with the skills to teach in this area basic knowledge of management sciences and framework arrangements of physical culture and sports mastering the basic technical elements of various sports and the sports you ve chosen as well as methods of explanation and demonstration of basic and auxiliary sports elements knowledge of the means of regulation and control of training and competitive load in the chosen sports knowledge of methods and means of gathering, synthesizing and using the information on the achievements of physical culture and sports; methods of advocacy to attract people to the sport and recreational activities. CAREER OPPORTUNITIES Employment areas: general education institutions extended education institutions of sports focus higher education institutions sports centres, and sports clubs sports franchise sports teams leasure centres. Career opportunities include: Physical Education teacher, physical education instructor, coach, instructor, manager of sporting organization. 172

173 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Basic Safety Human Anatomy Biomechanics of Movements Biochemistry Human Physiology Hygiene Basics of Sports and Physical Training Pedagogy of Physical Culture Psychology of Physical Culture History of Physical Culture Theory and Teaching Methods in Physical Culture Sports and Physical Culture Management Theory and Teaching Methods in Selected Sport Theory and Teaching Methods in Basic Sports Skiing Track-and-field Athletics Basketball Volleyball Swimming Sports Event Management Subject Area Units (Specified Electives) Sports and Educational Technology Gymnastics Outdoor Games Planning Strength Training Fitness and Aerobics Sports Facilities and Sports Outfit Sports and Recreation Tourism Basics Table Tennis Chess Football National Sports Winter Sports Sports Massage Basics Exercise Therapy and Sports Medicine Physical Culture Studies Physical Culture Acmeology Information Technologies in Physical Culture Sport Dance Marketing in Sport and Recreation Service CONTACT INFORMATION: Academic Curriculum Supervisor Ivan S. Rozum Senior teacher, Department of Sports Disciplines, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822) , 173

174 Yurga Institute of Technology, TPU affiliate Yurga Institute of Technology, TPU affiliate Economics Subject area «Accounting, Analysis and Audit» Full information you can see in part VI Management Subject area «Production Management» Full information you can see in part VII Bachelor Duration: 4 years Bachelor Duration: 4 years Agricultural Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme distinctions: objective is to form competence taking into account international and European quality standards of higher education; orientation towards training of competitive professionals who able to provide innovative development and update of the industrial equipment; a possibility to feature in R&D projects on high-technology and high-performance processes of technical service provided by the agricultural sector enterprises Advantages of the infrastructure: Modern well equipped laboratories, computer classroom having all necessary software for engineering activity in the given field, the Internet access. TRAINING OUTCOMES Competences gained: self-sufficiency in employing natural sciences, mathematics, and engineering knowledge; skills in posing and solving engineering problems in the area of agricultural engineering; ability to design engineering processes for enterprises 174

175 Yurga Institute of Technology, TPU affiliate tpu.ru agricultural sector; skills in development of specific maintenance tools for vehicles and machinery; ability to estimate technical-and-economic efficiency of project and engineering decisions, skills in teaming and managing; mechanical, operating, and repairing skills; ability to design major elements of jigs, fixtures and tools; skills in carrying out research into the development of new manufacturing processes; COURSE STRUCTURE Core units 4.1 Majors: Foreign Language History Philosophy Economics Mathematics Physics Chemistry Descriptive Geometry and Engineering Graphics Hydraulics Heat Engineering Materials Science. Construction Materials Engineering Strength of Materials Machine Components and Design Basis Theory of Mechanisms and Machines ability to provide correspondence proving of the developed projects and technical documentation to standards, technical conditions, and other regulatory documents.. CAREER OPPORTUNITIES Employment areas: specialists or heads of production-manufacturing and organizational-administrative departments; employees, heads, or coordinators of research and design enterprises and institutions. Subject Area Units (Specified Electives) Technical Service in Agricultural Sector Basics of CAD Systems in Automobile and Tractor Construction Entrepreneurship Basics in Agricultural Sector Farm Production Technique Tractors and Vehicles Plant Growing Equipment Animal Husbandry Equipment Electrical Equipment of Tractors and Vehicles Diagnostics and Maintenance of Machinery Farm Mechanical Engineering Economics and Organization of Maintenance Basics of Management and Marketing Maintenance Engineering Enterprises Technical and Economic Analysis of Enterprise performance CONTACT INFORMATION: Academic Curriculum Supervisor Oleg Y. Retyunskiy PhD, Head of Agricultural Engineering Department; Tel: +7 (38451) uti.tpu.ru/edu/chairs/ai/ Kemerovo Region, Yurga 10, Zavodskaya Str. 175

176 Yurga Institute of Technology, TPU affiliate Metal Engineering Bachelor Duration: 4 years ACADEMIC CURRICULUM OUTLINE Programme distinctions: academic process corresponds to the system of the integrated multilevel practice-oriented lifelong learning; industrial experience acquired at the largest combines and plants in the country. TRAINING OUTCOMES Competences gained: ability to effectively work both individually and in a team demonstrating leading skills in terms of a collective body and interdisciplinary projects as well; using methods of raw material and energy resource management and of other kinds of metal industry resources; featuring in innovative projects using basic research and regular studies of scientific information including both national and international experience; awareness of the availability of intellectual, ethical, physical, and professional self-development and self-improvement. CAREER OPPORTUNITIES Employment areas: ore and other materials processing so as to obtain concentrates, production of metals and alloys, metal products of the required quality, and processing which modifies a chemical composition and a structure of metals (alloys) to achieve specific properties. Career opportunities include: senior specialist in work safety (mechanical engineer), master, steelmaker (blast-furnace keeper, heat-treater, etc.), organization department manager. 176

177 Yurga Institute of Technology, TPU affiliate tpu.ru COURSE STRUCTURE Core units Foreign Language History Philosophy Production Economics Mathematics Informatics Physics Physical Chemistry Ecology Thermal Physics Materials Science Basic Safety Metal Technology Descriptive Geometry and Computer Graphics Subject Area Units (Specified Electives) Metal Engineering Resource Saving in Metal Industry Methods of Technological Creativity Nanostructures, Nanosystems, Nanotechnologies in Metal Industry Ore Preparation Iron Manufacture and Direct Reduction of Iron Steel and Alloys Casting and Solidification Steel Production Theory and Technology Production of Nonferrous Metals Special Electrometallurgy Secondary Metallurgy and Ladling Design Basis of Electric Furnaces Design Basis and Foundry Machinery Foundry Engineering Metal Treatment Under Pressure Heat Treatment of Metals and Alloys CONTACT INFORMATION: Academic Curriculum Supervisor Saprykin Aleksandr Aleksandrovich PhD, Concentration Programme Manager, Head of Department of Ferrous Metals Metallurgy, TPU Please see information about our Department at uti.tpu.ru/edu/chairs/mchm/ and our social network page vk.com/metallurgy You may ask your questions both on VK page and by е-mail: Welcome to Yurga Institute of Technology! Mechanical Engineering Bachelor Duration: 4 years Subject area: «Machinery and High-Technology Material Processing» «Welding Production Technology and Equipment» Full information you can see in part IV Applied Informatics Subject area: «Applied Informatics (in Economics)» Full information you can see in part V Safety in Technosphere Bachelor Duration: 4 years Bachelor Duration: 4 years Subject area: «Environmental engineering and environmental management» «Environmental engineering and environmental management» Full information you can see in part VI 177

178 Customs Affairs Institute of Humanities, Social Sciences and Technologies Specialist s Degree Programme Institute of Humanities, Social Sciences and Technologies Specialist Duration: 5 years ACADEMIC CURRICULUM OUTLINE Programme features: Training specialists for professional administrative, economic, foreign economic, law enforcement and research activities in institutions of customs profile This course focuses on versatile training of students and professional capacity formation that helps our graduates be highly competitive. TRAINING OUTCOMES Competences gained: Knowledge of customs procedures, customs clearance, customs treatment types and contents; Knowledge of customs tariff regulations law principles of foreign trade activities; Knowledge of procedure of calculation and security of customs payments knowledge; Knowledge of sources and rules of administrative and customs law; Knowledge of customs supervision procedure; Skills in handling risk management and operational control; Knowledge of customs economics; Knowledge of customs management; Knowledge of crime investigation techniques and consideration of customs rules violations; Knowledge of civil, criminal and procedural legislation. CAREER OPPORTUNITIES Employment areas: Customs offices and agencies, foreign trade and customs affairs profit-making organizations and nonprofit institutions. The post system in The Federal Customs Service of Russia is based on the principle of hierarchy. Career opportunities include: Junior Rank Officer, middle Rank Officer, senior Rank Officer, Top-level Officer. A career of manager, broker, logistician, and declarant are career options to consider. 178

179 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Basics of Customs Procedures Commodity Science and Examination in Foodstuffs and Nonfoods Customs and Commodity Classifier for Foreign Economic Activities Finances and Accounting General Management and Customs Management Customs Procedures Customs Control State Regulation of Foreign Trade Activities Foreign Trade Pricing Legal and Administrative Framework of the Customs Authorities Basics of Classification and Investigation of Crime in the Field of Customs Customs Information Technologies Economic Security Customs Activity Management Customs Economics Subject Area Units (Specified Electives) Customs Management Risk management Foreign Economic Activity of the Enterprise Public Service in Russia and the Ethics of Civil Servants CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Lubov I. Soskovets DSc., Department of History and Regional Studies, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822)

180 Institute of International Education and Language Communication Institute of International Education and Language Communication Translation and Translation Studies Specialist Duration: 5 years ACADEMIC CURRICULUM OUTLINE Programme features: developing fluency in two foreign languages: English/ German, English/ French, German/ English, French/ English, Chinese/ English; gaining experience in translation, consecutive and simultaneous interpreting; getting practical skills in using computer-assisted translation software suites (SDL Trados and others); acquiring skills in technical writing, getting additional professional qualification of technical communicator a specialist in language, translation and information technologies, able to efficiently bring a product to market. TRAINING OUTCOMES Competences gained: The graduate will be able to communicate in intercultural environment while solving professional problems; to apply basic theories and methods social, natural, economic and technical sciences in solving professional problems; to work in multicultural team; to produce coherent, clear and well-grounded oral and written speech in Russian, to present recognized and personal scientific results; to implement educational activities; to apply two foreign languages knowledge and skills in solving professional problems; to do discourse analysis using systemic linguistic knowledge, recognizing linguistic signs of social relations and personal speech characteristics; to produce oral and written speech in foreign languages; to efficiently translate and interpret; to use computer to edit texts and design and manage information; to search for, analyze and use in their professional activity current research results in linguistic, crosscultural communication and translation studies. to apply methodology and methods of scientific research. Graduates acquired competences are unique and conditioned by the peculiarities of training a linguist in a technical university. The graduates gain foreign language professional communicative competence in the framework of TPU priority development fields. 180

181 Institute of International Education and Language Communication tpu.ru CAREER OPPORTUNITIES Employment areas: translation and interpreting in enterprises and companies operating in the sphere of natural recourses, IT, machinery and different technologies; information analytics in enterprises and companies operating in the sphere of natural recourses, IT, machinery and different technologies; technical communication/ engineering product linguistic maintenance technical documentation (descriptions, instructions and manuals) translation and producing; scientific research in universities. Career opportunities include: translator/ interpreter (translator/ interpreter consultant); technical communicator (writer, editor); foreign language teacher/ lecturer; unit manager/ External Affairs officer; escort interpreter, guide-interpreter. Graduates are welcome and eligible to apply for Master s and Post-Graduate Degree in the following programmes: Theory of Translation and Cross-Cultural Communication, Linguistics, Philology, International Relations, Foreign Regional Studies. COURSE STRUCTURE Core units Humanities and Social Sciences Classical Languages and Cultures History Logics World Culture/ World Literature Law Studies Psychology/ Sociology Rhetoric Russian Language Stylistics and Speech Standards Theory of Cross-Cultural Communication Philosophy Economics Information technologies Informatics Information Technologies in Professional Activity Information Support of Innovative Activity/ SDL Trados Information Security Basics in Professional Activity Specialized Translation Subject Area Units Basic Safety Professional Basics Introduction to Linguistics Engineering Discourse Literature of Target Language Countries History of the First Foreign Language and Introduction to Special Philology Lexicology Linguistic and Translation Analysis Management Teaching Methods in ESP/ Teaching Methods in Foreign Languages Metrology, Standardization and Certification General Linguistics Basics of Engineering Design Basics of the Second Foreign Language Theory Practical Course on Conversation in the First Foreign Language Practical Course on Conversation in the Second Foreign Language Oral and Written Practice of the First Foreign Language Oral and Written Practice of the Second Foreign Language Practical Course in the First Language Translation Practical Course in the Second Language Translation Special Country Studies Stylistics Creative Project Theoretical Grammar Theory of Translation Technical Communication Student Academic Research Physical Training Subject Area Units (Specified Electives) Introduction to Simultaneous Interpreting Translating in IT/ Translating in Wildlife Management/ Translating in Engineering and Technology/ Translating in Electronics and Instrument Engineering Practical Course in Written Translation (First Foreign Language) CONTACT INFORMATION: Academic Curriculum Supervisor Tatiana Nikolayevna Ilyinskaya PhD, Head of Department of Linguistics and Translation Studies, Institute of International Education and Language Communication Tel. +7 (3822) [email protected] 181

182 Yurga Institute of Technology, TPU affiliate Yurga Institute of Technology, TPU affiliate Mining Engineering Specialist Duration: 5 years ACADEMIC CURRICULUM OUTLINE Programme distinctions: We offer four instruction loci, namely: - mining management; - evaluation of mining plants, machinery and mineral deposits; - research organization and management related to geology and mining engineering; - design and operation of mining machinery. TRAINING OUTCOMES Advantages of the infrastructure (laboratories, centres, etc.: high-demand and prestigious professions; classical mining education: engineer s degree is awarded after a 5-yearstudy; Diploma of National Research Tomsk Polytechnic University; modern knowledge; training at TPU, life in Kuzbasland, social benefits from TPU and Kuzbas; the largest scholarship: during the next three years the scholarship will be increased 2 or 3 times to students entering the mining programmes; an opportunity to acquire knowledge at TFH Georg Agricola, Bochum, Germany. CAREER OPPORTUNITIES Background (brief information): Knowledge of advanced development tools of complex 182

183 Yurga Institute of Technology, TPU affiliate tpu.ru engineering systems, mining equipment and automatic control systems with high-level automation; skills in software, hardware, and technologies of the advanced Russian and worldwide producers, such as ASCON, Microsoft, Dassault Systèmes S.A., Autodesk, Schlumberger, etc.; English language proficiency. Rewarding career opportunity: Graduates who take practicals during their study, are usually assigned to the base enterprise at which they will be employed subsequently. They craft their image during the study and acquire experience that will play the important part in remuneration of labour and level of proficiency when hiring. A list of the main enterprises which provide students with industrial experience is given below. COURSE STRUCTURE Core units Foreign Language History Philosophy Mining Economics and Management Mathematics Physics Geology Descriptive Geometry. Engineering and Computer Graphics Engineering Mechanics Applied Mechanics Strength of Materials Electric Machines and Electric Drives Fluid Mechanics Materials Science Elements of Mining Mining Safety and Rescue Work Aerology of Mining Companies Firing Technology and Safety Mining Machinery Subject Area Units (Specified Electives) Mining Machinery and Equipment Equipment Endurance and Dynamics Hydraulics Underground Equipment Mining Plant Equipment Mining Machinery Design Mining Machinery Operation CONTACT INFORMATION: Academic Curriculum Supervisor Anton A. Kazantsev PhD, Head of concentration programme, Head of Mining Equipment Department Tel: +7 (38451) [email protected] 183

184 Economics Institute of Humanities, Social Sciences and Technologies Master s Degree Programme Institute of Humanities, Social Sciences and Technologies Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: the opportunity for undergraduates to participate in the research, analytical and educational activities participation of leading researchers and experts in teaching the opportunity of participation in international academic exchange programmes the opportunity to choose subjects according to their professional inclinations. TRAINING OUTCOMES Competences gained: ability to adapt to changes in the market economy, to the changing conditions of professional activities related to the new legislation in the area of taxation, accounting and auditing ability to apply new technologies and international standards of accounting, financial reporting and auditing ability to design innovative programmes of market development and mechanisms of accelerating scientific and technological advances on the basis of the economic development research ability to develop a system of socio-economic indicators of the state of the business; to substantiate their methods of calculation; to project the development trends of the company performance; to design plans and budgets for enterprises. CAREER OPPORTUNITIES Employment areas: The programme is aimed at preparing specialists for research, project, analytical, managerial, and teaching activities in Economic, financial, marketing, operating, and analytical divisions of organizations of various industries and of different pattern of ownership Academic institutions and research universities and colleges sponsored by government agencies Educational institutions of primary vocational, secondary vocational, higher vocational, and further vocational education. 184

185 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Foreign Language for Specific Purposes Economics Concept Philosophical Issues of Science and Engineering Practical Work on Business Planning Computer Technologies in Science and Education Computer Technologies in Vocational Training Microeconomics Macroeconomics Econometrics Taxation Management and Tax Planning Subject Area Units (Specified Electives) Accounting, Analysis and Audit Sectoral Accounting Financial Accounting External and Internal Audit International Financial Reporting and Audit Standards Budgetary Accounting Economic Analysis and Financial Reporting Analysis Accountancy in Depository Institutions Innovative Economics Intellectual Property Market Innovative Economics and Entrepreneurship Market Innovation Infrastructure Mathematical Modeling in Economics Economic Functions Forecasting Innovation Management Investment Management Corporate Economics and Planning Sectoral Accounting External and Internal Audit Productive Industry Technologies Principles of Budgeting Strategic Management Economic Analysis and Financial Reporting Analysis Financial Accounting CONTACT INFORMATION: Academic Curriculum Supervisor Irina P. Vorobyeva PhD, Associate Professor of the Department of Economics, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822)

186 Institute of Humanities, Social Sciences and Technologies Management Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: The programme is aimed at preparing highly qualified managers, analysts and researchers capable of solving challenging managerial tasks, managing various projects and maintaining a project management system capable of organizing and managing media business (media managers and producers) capable of managing educational institutions or their subdivisions, perceiving and generating innovations in the sphere of science and education capable of working in the public and regional government in the sphere of subsurface resources management, of evaluation of oil and gas reserves and resources; in organizations engaged in the construction and operation of large oil and gas facilities. TRAINING OUTCOMES Competences gained: skills in managerial activities (enterprise and subdivision management, team and group management, project and network management) skills in analytical activity (information retrieval, analysis and evaluation of information for effective management decisions making, analysis and modeling of management process) skills in research activities (identification of science topical issues, development of research programmes, organization of research, preparation of studies, reviews, and scientific publications) skills in educational work (management teaching and training materials development). CAREER OPPORTUNITIES Employment areas: The programme is aimed at preparing highly qualified managers, analysts and researchers for work in large and small businesses in various economic sectors, such as industrial enterprises, service industry, governmental bodies, banks, insurance and consulting companies. They can expect to be employed in project and analytical subdivisions, IT subdivisions of IT companies, research institutions. The programme offers students excellent opportunities to work as managers, analysts and project managers, as well as development heads in Russian educational institutions. Graduates of the department have the opportunity to earn the MBA degree or enter a postgraduate study programme. 186

187 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Philosophical Issues of Science and Engineering Modern Management Cross-Cultural Management Foreign Language for Specific Purposes Managerial Economics Organization Theory and Organizational Behavior Research Methods in Management Corporate Finance Modern Strategic Analysis Subject Area Units (Specified Electives) Enterprise Economics and Management Enterprise Value (Business Cost) Estimation Management Accounting Resource Efficiency Management Business Economic Strategy Project Management Organization of Research Activity Business Process Reengineering (BPR) Insurance Industry Enterprise Economics and Management (in Oil and Gas Industry) Management Accounting and Audit in Oil and Gas Industry Principles of Nature Resources Law Resource Efficiency Management Principles of Oil and Gas Production Oil and Gas Enterprise Management Innovation Management in Oil and Gas Industry Research Organization Production Operation Risks Marketing and International Trade in Oil and Gas Industry Project Management (in various industries) Project Management International Investment Pedagogy Management Accounting International Marketing History and Methodology of Management Management Applied Models Entrepreneurial Law Risk Management Research and Education Management Higher Education Institution Administration Policies Legal and Regulatory Framework of Educational, Research and Innovative Activity in Higher Education Institution Human Resource Management in Research and Educational Institutions Commercialization of Research Findings Competitiveness Management in Higher Education Institution Curriculum Accreditation Organization Theory and Organizational Behavior Managerial Economics Modern strategic Analysis Media Business Management Project Management International Investment Organizational Management in News Television Programme Basics of Media Financial Management Marketing, Advertising and Media Planning Ethical and Legal Aspects of Media Contemporary Issues in Media Management Basics of Media Production Technology Media System Sales with DBMS Human Resources Management in Media History and Methodology of Management Information Systems in Management Automated System Design in Engineering Processes Management Risk Management Information Security and Data Protection Intelligent Management System System Control Programming and Applied Software Planning of Software Design Technology for Corporate Network History and Methodology of Management CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Irina E. Nikulina DSc., Head of the Department of Management, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822) Prof. Alfred A. Dulzon DSc., the Department of Engineering Entrepreneurship, The Institute of Humanities, Social Sciences and Technologies, Tel.: +7 (3822) l-business.tpu.ru Prof. Yuri P. Pokholkov DSc., Head of the Department of Management and Technology in Higher Professional Education, The Institute of Humanities, Social Sciences and Technologies, Tel.: +7 (3822) Prof. Grigory Yu. Boyarko DSc., Head of the Department of Natural Resources Economics, The Institute of Natural Resources Tel.: +7(3822) , 187

188 Institute of Humanities, Social Sciences and Technologies Tourism Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: ability to implement educational activities in tourist profile schools with a focus on practical skills advancement of knowledge in the field of tourism at the all-russian and regional level mastery of skills in the field of tourism activities both in the domestic and global market of holiday industry. TRAINING OUTCOMES Competences gained: competencies needed to design tour programmes, package tours, guided tours taking into account technological, socio-economic and other requirements including an ability to calculate and evaluate the costs of tourist activity in the enterprise competencies needed to promote innovative tourism products while considering a tourist destination and the availability of related services (food, accommodation, transport, and animation) competencies required for the development and implementation of educational paths in the field of tourism, including the creation and promotion of exclusive educational products of the tourist industry. CAREER OPPORTUNITIES Employment areas: development and implementation of innovative educational strategies in the field of tourism development and implementation of tourism product with qualities that meet the needs of consumers organization of integrated tourist services in key sectors of the tourism industry development and implementation of the educational process in the field of tourism. The targets of Master professional activities are: educational process in the field of tourism personnel training consumers of tourism industry services customer needs tourism product. 188

189 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Theory and Methodology of Social-Economic Research in Holiday Industry Legal Groundwork for Holiday Industry Computer Technologies in Science and Education Theory and Methodology of Recreational Geography English for Specific Purposes Tourist Destination Development Tourism Regional Policy Tourist Destination Marketing and Branding Socio-Anthropological Research in Tourism Cross-Cultural Communication Project Management Organization Tourism Development and Tourism Product Technology Tourism Activities Forecasting and Planning Financial Management Communication Management New Economy Business Tourism Event-Based Management Subject Area Units (Specified Electives) Tourism: Evolution, Structure, Management, and Marketing Innovations in Tourism Tourism Business Planning Hotel Management Marketing Research and SWAT Analysis in Tourism CONTACT INFORMATION: Academic Curriculum Supervisor Prof. Olga T. Loiko DSc, The Department of Culture Studies and Social Communication, The Institute of Humanities, Social Sciences and Technologies Tel.: +7 (3822)

190 Institute of Humanities, Social Sciences and Technologies Innovation Theory Master Duration: 2 years ACADEMIC CURRICULUM OUTLINE Programme features: participation in regional, national and international business projects with a focus on innovative projects participation in research work in real innovative project implementation intensive General English and ESP (English for Specific Purposes) training. TRAINING OUTCOMES Competences gained: ability to organize the work of the creative team to achieve the scientific objectives, to make managerial decisions, to evaluate the quality and productivity of work, and the results and costs of research-andproduction team ability to choose or develop the scientific research technology, to assess the costs and carry out a scientific research project, to analyze the results of it and present them at a conference or in the print edition in Russian or a foreign language ability to conduct education sessions; to use, adapt, improve and develop innovative educational technologies; to organize and supervise the research work of undergraduates. CAREER OPPORTUNITIES Employment areas: innovative projects and programmes of competitive goods and services production business process reengineering forecasting the development and adaptation of industrial economic systems to innovation commercialization of innovations instrumental provision of all phases of innovation project management. Career opportunities include: Academic adviser, technical officer, project leader for innovation and change, specialist and sales manager, specialist and head of finance and planning department, quality specialist, expert on intellectual property, research officer. 190

191 Institute of Humanities, Social Sciences and Technologies tpu.ru COURSE STRUCTURE Core units Human Resources Management and Organizational Behavior Financial Management of the Enterprise Applied Systems Analysis Inventive Problem Solving Art of Negotiation Legal Basis of Management Business Planning Engineering Entrepreneurship Contemporary Issues in Innovation Theory Statistic Approach to Innovation Management Innovation Management Quality Management Business Management Policies Subject Area Units (Specified Electives) Enterprise and Innovation Company Intellectual Resources Management Innovation Marketing VC Funding National and International Certification Commercialization: Russian and International Experience Innovation Infrastructure Valuation of Tangible and Intangible Assets Information systems in advertising and public relations Technological Audit Lean Manufacturing Management Technology Transfer Practical Work on International Systems of Financial Statements Research and Experimental Designing Organization Innovation Product Sales Management CONTACT INFORMATION: Academic Curriculum Supervisor Stepan V. Khachin PhD., Associate Professor, Department of Engineering Entrepreneurship, The Institute of Humanities, Social Sciences and Technologies, Tel.: +7 (3822) , Applied Informatics Subject area: «Applied Informatics and Analytical Economics» Full information you can see in part V Master Duration: 2 years 191

192 Notes NOTES 192

193 Notes tpu.ru 193

194 194 Notes

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196 The Preparation of the material for the Catalogue of BEP (Basic Educational Program) 2013 was attended by following university staff: Voronova G.A. team leader, Balovneva A.N., Belsner O.A., Bibik V.L., Brakorenko N.N., Volkova T.F., Gnezdilova N.S., Deneykin Y.V., Dolgikh A.Y., Zhlyudina A.V., Zamyatina E,V., Kazantsev A.A., Kapelyushnik E.V., Kudryavcev V.A., Kuznetsov M.S., Kurikova N.V., Lyamina G.V., Maletina L.V., Manankova A.A., Marukhina O.V., Naibauer I.N., Pulkina N.E., Retyunskiy O.Y., Semenov A.O., Soldatov A.A., Sorokova S.N., Tyurina I.I., Khokhlova V.V., Cygankova T.S., Shevelev S.A., Shestakova V.V., Kiryanova E.A. design & page-proof.