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Study Petroleum Engineering in Russia with a Bachelors degree in Drilling of Oil and natural Gas wells  GAS DRILL gas-drilling

BACHELORS in Petroleum Engineering in Russia

Come study in Russia in TPU (founded in 1896), Tomsk, Council for Foreign Education in Russia’s official partner.

Study in Russia with Council for Foreign Education in Russia as it is in a strategically strong position due to its location in Russia and its relationship with top Petroleum Engineering faculties to impart quality education in Petroleum Engineering to international students.

The demand for new engineers is expected to continue well into the future as a large number of practising engineers are approaching retirement age, creating new opportunities for young graduates. Oil and gas production is a worldwide business with possibilities of overseas assignments or involvement in major overseas projects.

In our petroleum engineering program, low Professor: student ratios, research is integrated into learning , European Credit Transfer System (ECTS) , access to research and technological resources and ability to re pass the exams every semester if the student fares not satisfactorily or falls sick or is out f station for some genuine reason.

Several worldwide trends ensure that the strong demand for petroleum engineers will continue. The ever-increasing population of the earth, combined with the growing thirst for energy in the developing countries like India, China, Nigeria, Indonesia, South Africa, Brazil etc., is putting significant upward pressure on the demand for oil and gas production. This increasing demand for energy, and the simple fact that oil and gas resources are limited, places the petroleum engineer in a strong position now and for many years to come.

Oil company expenditures for exploration and production are rising fast, as are budgets and salaries for petroleum engineers. The number of job openings also is rising.

The ever-increasing integration of multidisciplinary teams of professionals—including petroleum engineers, geologists, geophysicists, and others—is another trend shaping the future of the industry. Joint ventures and partnerships among companies, and outsourcing of projects are opening new opportunities and new ways of doing business. These business trends are accelerating simultaneously with technological advances in the areas of computer simulation of underground oil and gas reservoirs, geophysical seismic techniques, horizontal drilling, and offshore drilling and production.

Additionally, more jobs are available than there are professionals to fill them.

In this course the student will be getting getting specialized skills and knowledge in the field of drilling oil and gas wells. Therefore, during the development of this profile bachelors will invited to explore the main issues related to the directional drilling of wells, increasing the wear resistance of the rock cutting tool research ecotoxicity drilling mud and cement solutions, development of jetvortex nozzles jetting drill bits, improving the quality of drilling fluids.

Objectives / Purpose The Federal State Education Standards requirements and interested employers
Readiness of graduates to the production process and design activities, providing upgrades, implementation and operation of equipment for the production, transportation and storage of oil and gas The Federal State Education Standards requirements, criteria AEER, compliance with international standards and the EUR-ACE FEANI. Needs of the scientifc-research center of “TomskNIPIneft” and the oil & gas industry, enterprise OOO “Gazprom”, “Transneft”
Readiness of graduates to the organizational and managerial activities for making professional decisions in the interdisciplinary fields of modern oil and gas technologies using the principles of management and control The Federal State Education Standards requirements, criteria AEER, compliance with international standards and the EUR-ACE FEANI, questions of domestic and foreign employers

BACHELORS in Petroleum Engineering in Russia course with specialization in Drilling of Oil and natural Gas wells

  • Legal provision of the oil and gas business (mining law)
  • Business Etiquette and Culture of Communication
  • Fundamentals of business ethics and corporate culture

in the field of production and technological activities

  • ability to manage system technological processes
  • operate and maintain the complex Oil & Gas facilities

in the field of organizational and managerial activities

  • Effectively work individually and as a team member on an interdisciplinary topics
  • lead the team for the professional innovation tasks in accordance with the requirements of corporate culture and tolerance

in the area of ​​project activity

  • Plan, conduct, analyze, process, experimental studies with the interpretation of the results obtained on the basis of modern modeling techniques and computer technology
  • Ability to apply knowledge, modern methods and software design tools to compile the project and working and technological documentation for drilling oil and gas wells, production, gathering, preparation, transport and storage of hydrocarbons

student should KNOW

  •  key terms and definitions, well construction, well classification
  • history, problems and prospects of development of the technology of drilling wells
  • processes of production drilling process
  • methodology for designing the well design, calculation of casing and zonal isolation
  • elements of technological equipment of the drill string, their structure and rules of operation
  • technical tools of basic technological processes
  • regulatory and technological and instructional documentation for drilling oil and gas wells
  • basic safety precautions when drilling
  • the peculiarities of engineering and technical services management and control drilling operations.

student should be BE ABLE TO:

  • use simulation methods of drilling wells
  • count well design
  • to develop the technology of drilling
  • use of technical means for measuring parameters of drilling fluids and cement
  • conduct analytical work on the problem of drilling wells
  • reasonable to choose a method of drilling and rock cutting tools for specific geotechnical drilling conditions
  • calculate the optimal settings for the drilling
  • perform projecting and checking calculation of the drill string for vertical and directional wells with rotary and turbine drilling
  • conduct analytical work on the technological problems of drilling oil and gas wells.

student should POSSESS:

  • Methods of constructing the simplest mathematical models of typical professional tasks
  • Mathematical methods for solving problems of the natural sciences
  • Methods of analysis meaningful interpretation of the results

Disciplines studied under BACHELORS in Drilling of Oil and natural Gas wells

1 GENERAL INFORMATION ABOUT THE CONSTRUCTION OF WELLS

1.2. TECHNOLOGY DRILLING TOOLS
1.2.1. Rock cutting tool
1.2.2. Core Lifter device and drill head
1.2.3. drillstring
1.3.1. turbodrills
1.3.2. Downhole drilling motors
1.3.3. Electric drills

1.4. TECHNOLOGICAL ASPECTS OF DRILLING.
1.4.1. Correlation of drilling and operational parameters.
1.4.2. The specifics of the various technologies in drilling
1.4.3. Drilling of wells with balanced pressure
1.4.4. Well drilling coring.
1.4.6. Drilling support-technology wells.
1.4.7. Design drilling technology

1.5. HIGHLIGHTS Drilling Technology Extreme Environments
1.5.1. Drilling technology to prevent fluid loss
1.5.2. Drilling technology for the prevention of water, oil and gas shows
1.5.3. Drilling technology to prevent violations of the stability of the borehole walls
1.5.4. Technological measures to prevent sticking
1.5.5. Features drilling technology in permafrost

1.7. Technology of drilling shallow wells VARIOUS
1.7.1. Technique and technology of drilling boreholes Features and drilling methods. Well design and setup filters. Drilling rigs, drill string and drilling technology.
1.7.2. Drilling Technology for solid minerals
Drilling conditions and methods used. Technological drilling tool. Constructive scheme, the normal range of drilling rigs. Features drilling technology.
1.7.3. Features drilling technology geotechnical and seismic wells.
Purpose and features of geological and seismic wells. Methods of drilling rigs, drill string and drill mode settings.

 

TOPICS OF LABORATORY WORK

    1. Identification of the elements of the flowsheet for the Drill Unit 80 installation
    2. Identification of the elements of the functional systems of a Rock Bit (RB)
    3. Identification of the RB with milled arm
    4. Identification of RB Carbide arms
    5. Identification of flushing systems
    6. Visual quality control stepper motor
    7. Instrumental quality control stepper motor
    8. Estimation of the parameters in the operation of stepper motor
    9. Coding wear
    10. Blade-drilling and PDC (polycrystalline diamond cutter) bits
    11. Identification of drill pipes
    12. Identification of the connecting elements of the drill string
    13. Determination of the strength characteristics of the drill pipe
    14. Identification of 14 turbines turbodrills
    15. Identification supports turbodrills
    16. Identification of the elements of section turbodrills
    17. Identification of the elements of section turbodrills spindle
    18. Identification of elements turbodrills with oblique line pressure
    19. Identification of the elements of the bulk Propellers
    20. Identification of the drill head
    21. Identification of core lifter devices
    22. Operative correction operation of SM
    23. Determination of the duration of a rational mining bits
    24. Identification of emergency tool
    25. Identification of rock cutting tools for drilling shallow wells
    26. Identification elements 26 of the drill string for drilling shallow wells
    27. Tools for coring while drilling for solid minerals

TOPICS PRACTICAL LESSONS

  1. Selection of drilling
  2. Analysis of the quality of materials for the manufacture of roller cone bits
    Rock Bit (RB)
  3. Analysis of structural supports SM
  4. Analysis purification schemes face
  5. Analysis of the structures of SM
  6. Analysis of the structure of diamond bits
  7. Analysis layouts drillstring
  8. Analysis layouts BHA for drilling vertical holes
  9. Analysis of layouts BHA for drilling directional wells
  10. Calculation of the drill string for drilling vertical wells turbine
  11. Calculation of the drillstring 10 to Turbine drilling directional wells
  12. Calculation of drillstring 11 for rotary drilling of a vertical well
  13. An analysis of the energy characteristics of turbodrills
  14. Calculation of the drilling mode cone bits
  15. Sizing turbodrill
  16. Calculation performance turbodrills
  17. Calculation of the primary mode of penetration of the productive horizon
  18. Dimensioning mode coring
  19. Calculation of the oil and acid baths
  20. Design of the drill string for sinking shallow wells
  21. Calculation of the mode of drilling shallow wells

For applying to study Petroleum Engineering (Oil & Gas Engineering) in one of the leading Russian State Universities go HERE and learn the step-by-step admission process at the end of the page. Then you may fill in all fields in our INFORMATION REQUEST Form and forward it to one of our e-mails: admissions@cferussia.ru or learninginrussia@gmail.com

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Study Petroleum Engineering in Russia with a Bachelors degree in Operation and maintenance of Transport & Storage of oil, gas and derivative productsLNG_blog post_v3 MiRO4 natural-gas-terminal

BACHELORS in Petroleum Engineering in Russia

Come study in Russia in TPU (founded in 1896), Tomsk, Council for Foreign Education in Russia’s official partner.

There are numerous areas for significant professional career growth for petroleum engineers—from drilling technology to the design of exotic fluid systems to inject in reservoirs to increase oil recovery. Salaries for petroleum engineers
are, and will continue to be, among the highest paid of all professionals. Study in Russia with Council for Foreign Education in Russia as it is in a strategically strong position due to its location in Russia and its relationship with top Petroleum Engineering faculties to impart quality education in Petroleum Engineering to international students.

Additionally, more jobs are available than there are professionals to fill them. An education in petroleum engineering has proven to be an excellent foundation for careers in fields such as law, medicine, and business.

In summary, these trends, in combination with others, indicate that both the short and long-term demand for petroleum engineers will be high; PEs will be provided with expensive tools, and they will be expected to design significant projects in a global environment. In many ways, the atmosphere for petroleum engineers today is more exciting and satisfying than ever before..

In this course the student will be getting specialized skills and knowledge in the field of operation and maintenance of the transport and storage of oil, gas and refined products. During the development of this profile bachelors are invited to explore the basic questions concerning the operation of oil pipelines, pump and compressor stations, equipment diagnostics pipelines and storage facilities, technological reliability of pipeline transportation of hydrocarbons, process safety, questions about specific techniques pumping.

Disciplines studied under BACHELORS in Petroleum Engineering in Russia course

  • Economics and Organization of petroleum production (Oil & Gas production)
  • History of Oil and Gas Industry
  • Legal provision of the oil and gas business (mining law)
  • Business Etiquette and Culture of Communication
  • Fundamentals of business ethics and corporate culture
  • Hydraulic machinery and air-oil circuit
  • Logistics of Oil & Gas distribution
  • Treatment facilities of transport and storage of oil and petroleum products
  • Building construction
  • Power drive pumps and compressors
  • Preparation of oil and gas for transportation
  • automated design engineering
  • Applications software products
  • Assessment of the economic efficiency of investments in enterprises of TSOG (Transport and Storage of oil & Gas)
  • Applied combustion  / thermal engineering
  • Fundamental question of Heat-transfer
  • Design and Operation of Gas Oil Pipeline
  • Design and Operation of Oil Gas Storage tanks (depots)
  • Design and operation of pump and compressor stations
  • Diagnostics Equipment Gas Oil pipeline
  • Resource-energy Conservation technologies of transport and storage of oil and gas
  • Transport and Storage of liquefied gases
  • Reliability of oil and gas facilities
  • Design and Operation of Gas Distribution Systems
  • Gas Turbine installations
  • Construction and repair of gas oil pipeline and Oil Gas Storage tanks (depots)
  • Fundamentals of Oil & Gas Industry
  • Foundations of Engineering Geology and Geology Oilfield
  • Engineering surveying (geodesy) and Soil Mechanics
  • Promising projects offshore oil and gas resources ; development of Techniques and Technologies of Transport and Storage of Oil & Gas (TSOG)
  • Petrol Stations and supply of Petroleum Products
  • Descriptive Geometry and Engineering Computer Graphics
  • Theoretical and Applied Mechanics
  • Materials science and Theory of Engineering Materials (TEM)
  • Electrical Engineering
  • Oil and Gas Chemistry
  • Hydraulics and Fluid mechanics of Petroleum
  • Thermodynamics and Heat Transfer
  • Life safety training
  • Meteorology, standardization and qualimetry
  • Fundamentals of automation of technological processes of the oil and gas production
  • Fundamentals of Environmental Safety in Transport and Storage of Oil & Gas (TSOG) companies
  • Mathematical modelling of processes in Transport and Storage of Oil & Gas (TSOG) companies
  • Physico-chemical basis of the Welding process

For applying to study Petroleum Engineering (Oil & Gas Engineering) in one of the leading Russian State Universities go HERE and learn the step-by-step admission process at the end of the page. Then you may fill in all fields in our INFORMATION REQUEST Form and forward it to one of our e-mails: admissions@cferussia.ru or learninginrussia@gmail.com

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Study Petroleum Engineering in Russia with a Bachelors degree in Construction and Repair of Pipeline Transportation Systems image006

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BACHELORS in Petroleum Engineering in Russia

Come study in Russia in TPU (founded in 1896), Tomsk, Council for Foreign education in Russia’s official partner. TPU has set up several centers in cooperation with schools abroad such as Ohio State University, Michigan State University and Goethe-Institut. It is a member of the Top Industrial Managers for Europe network.

Here the student will be getting specialized skills and knowledge in the construction and repair of pipeline transportation of oil and gas. During the development of this profile bachelors are invited to explore the main issues on the building structure, construction and repair of tank farms, monitoring and diagnostics of pipelines, Pipeline construction materials, construction and repair of pump and compressor stations, welding and assembly work designs oil and gas facilities.

Disciplines studied under BACHELORS in Petroleum Engineering in Russia course

  • Economics and Organization of petroleum production (Oil & Gas production)
  • History of Oil and Gas Industry
    Legal provision of the oil and gas business (mining law)
  • Business Etiquette and Culture of Communication
  • Fundamentals of business ethics and corporate culture
  • Communication technology
  • Corrosion and Corrosion Protection
  • Geology and lithology
  • Software in mathematical modelling
  • Statistical analysis
  • Electrochemistry
  • Geodesy
  • Petrophysics
  • Soil mechanics (Soil engineering)
  • Fundamentals of Geochemistry
  • Fundamentals of Geophysics
  • Descriptive Geometry and Engineering Computer Graphics
  • Theoretical and Applied Mechanics
  • Oil and Gas Chemistry
  • Hydraulics and Fluid Petroleum
  • Meteorology, standardization and qualimetry
  • Fundamentals of automation of technological processes of the oil and gas production
  • Pipeline transportation of crude oil and gas
  • Pumps and compressor
  • Power drive pumps and compressors
  • Supply of Petroleum Products
  • Continuum mechanics
  • Pipeline construction materials
  • Applied Fluid Mechanics
  • Energotechnological equipment
  • Basics of diagnostics
  • Applications software products
  • Petrol pumps (Gas stations)
  • Engineering surveys in pipeline construction
  • Nanotechnology in the oil and gas business
  • Treatment facilities of transport and storage of oil and petroleum products
  • Fundamentals of Budgeting in Pipeline Construction
  • Preparation of oil and gas for transportation
  • Fundamentals of design and construction of pipeline systems
  • Construction and repair of main pipelines
  • Construction and repair of reservoir  parks, terminals and gas stroage depots.
  • Construction and maintenance of Oil Pipeline System and Gas Compressor station
  • Construction and repair of gas distribution network (Gas Grid)
  • Construction and repair of subsea pipelines
  • Building construction
  • Construction of surface field facilities
  • Welding and assembly work in the construction of pipelines and structures
  • Building control and the diagnostics of main pipelines
  • Machinery and equipment for the construction of oil pipelines

Activities of Pipeline construction

  1. Right of Way clearing and grading
  2. Delivery, Transportation, Handling, Hauling, Stringing of pipes
  3. Trenching Normal & Rock
  4. Bending
  5. Lining up and Welding
  6. Radiographic Inspection
  7. Application of Joint Coating
  8. Lowering & back filling
  9. Tie-ins
  10. River and Road crossings
  11. Cleanup and Restoration of ROW
  12. Air Pigging cleaning and Gauging
  13. Hydrostatic testing
  14. De watering cleaning and Swabbing
  15. Golden Tie ins
  16. Valve installation
  17. Caliper survey and dent repairs
  18. Line Preservation

For applying to study Petroleum Engineering (Oil & Gas Engineering) in one of the leading Russian State Universities go here and learn the step-by-step admission process at the end of the page. Then you may fill in all fields in our Information Request Form and forward it to one of our e-mails: admissions@cferussia.ru or learninginrussia@gmail.com

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Why study Petroleum Engineering in Russia?

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  • Companies such as Gazprom, Rosneft, the Russian government’s Education Ministry and numerous others support the petroleum engineering program at leading Russian State Universities and provide graduates with employment opportunities beyond their studies.
  • The faculty of Petroleum Engineering in the leading Russian State Universities are the the largest an oldest in Asia and one of the best in the world.
  • You will spend a large amount of time applying the course material to real oil and gas field data.
  • Research is integrated into learning
  • Bilingual diploma: in Russian and English languages
  • Enhanced opportunities for career development
  • European Credit Transfer System (ECTS)
  • Access to excellent research and technological resources
  • Modern educational technologies
  • low Professor: student ratios
  • Russian State Universities have a reputation for high quality research

As a petroleum engineer you will be responsible for the identification and production of hydrocarbons, requiring a range of skills in engineering and geoscience disciplines.  You may work on a drilling rig, as part of a multi-disciplinary team for an energy company or as one of a diverse range of service contractors who support the extraction of hydrocarbons.

This is an exciting and technically challenging programme that will equip you for a range of careers in the petroleum industry.

Ongoing growth in worldwide energy consumption means demand for petroleum engineers is high. Countries like China, India, Russia, Nigeria, Ghana, the US, UK, Netherlands, Iraq, Iran, Saudi Arabia, Kuwait, Qatar, Egypt, Algeria etc. are always in need of good specialists and this need is only poised to grow. Studying Petroleum Engineering in Russia under Council for Foreign Education’s guidance seems a good bet.

Petroleum engineers are at the forefront of ensuring that we have a continued supply of this most important commodity on the planet today. With continued worldwide demand for energy, there is no better time to be a Petroleum Engineer.

Petroleum Engineering is an interdisciplinary subject, so you will study a broad range of subjects including geology, fluid mechanics, thermodynamics, chemistry and mathematics. You will be taught how hydrocarbon is generated, stored and produced in the subsurface. On completion of the programme you will understand the life-cycle development of oil and gas fields, and how petroleum engineers operate them effectively.

Petroleum Engineering is concerned with the exploration for and extraction of hydrocarbons, eg. crude oil and natural gas. Petroleum Engineers use creative and imaginative knowledge of petroleum geology, reservoir behaviour, as well as fundamental engineering principles to develop effective and safe solutions for the exploration, recovery and transportation of hydrocarbon products trapped underground, onshore or offshore, and in very challenging environments.

Virtually every product in modern life has probably been manufactured using energy generated by oil or gas.

If you are interested in applying the knowledge of geology and physics, in creating engineering systems for safe and sustainable harnessing of the primary source of energy used by the modern society, then you should consider Petroleum Engineering as a career choice.

To view degree programs in Petroleum Engineering in Russia offered by CFER, click here.

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Study PhD in Russia

Choosing to study PhD in a leading Russian State University or a National Research Russian State University will render you the following advantages:

  • Research is integrated into learning
  • Bilingual diploma: in Russian and English languages
  • Enhanced opportunities for career development
  • European Credit Transfer System (ECTS)
  • Practice and traineeships in leading Russian and foreign companies
  • Access to research and technological resources
  • Modern educational technologies
  • low Professor: student ratios
  • Multilingual Professors speaking english, german, french will create a better understanding and creative environment for the student
  • Russian State Universities have a reputation for high quality research
  • Common core in years 1 and 2 for all engineering students
  • Final choice of specialisation can be made at start of year 3

Come and complete your Doctorate in Russia with CFER. All international students are invited to study Doctorate degree programs in Russia.

Language of instruction: Russian / English

Studying in English language will help you think, analyze, ascertain and reach at a conclusion the topics and issues that interest you in a language comfortable to you and native to many of our international students. It will also give you the added benefit of understanding the Russia perspective, “Russian way of doing things”, without learning the Russian language.

Duration: 3-4 years

The individual research for PhD in Russia takes approximately 80% of complete curriculum. The thesis defense is organized at the session of the Dissertation Council into which the leading specialists of the University on this speciality are included. The standard forms of Ph.D. classes approved by the state educational standard are:

  • Lectures on the program disciplines;
  • Practical workshops in the scientific laboratories,
  • Independent study at libraries and with the help of the computing educational facilities,
  • Individual research under supervision of experienced professor,
  • Preparation of scientific publications and conference reports,
  • Visit to Russian scientific organizations;
  • Consultations of the scientific supervisors,
  • Planned exams.

Physics

  1. Experimental Physics Instruments and Methods
  2. Theoretical Physics
  3. Physical Electronics
  4. Condensed Matter Physics
  5. Plasma Physics
  6. Semiconductor Physics
  7. Thermal Physics and Theoretical Heat Engineering
  8. Nuclear and Elementary Particle Physics
  9. Chemical Physics, Combustion and Explosion, Physics of Extreme States of Matter
  10. Crystallography, Crystal Physics
  11. Charged Particle Beam Physics and Accelerating Equipment

Chemical Sciences

  1. Analytical chemistry
  2. Organic chemistry
  3. Physical chemistry
  4. Electrochemistry

Chemical Engineering (TPU)

  1. Technology of Rare, Scattered and Radioactive Elements
  2. Organic Matter Technology
  3. Chemical Technology of Fuel and High-Energy Substances
  4. Processes and Apparatus of Chemical Technologies
  5. Technology of Silicate-Based and Heat-Resistant Non-Metal Materials
  6. Fire Safety and Industrial Safety (Power, Mining, Petroleum, Chemical, Mechanical Engineering, Wood-Working)

Chemical Engineering (MITHT)

  1. Fundamental principles and technological principles of energy saving in the mass-transfer processes
  2. Catalysts and sorbents new generation to meet the challenges of petrochemistry, energy saving and environmental
  3. Development of technological foundations of innovative dosage forms and systems targeted delivery of active pharmaceutical ingredients using techniques of biotechnology and bionanotechnology
  4. Basic research in the field of synthesis, properties of natural bioactive compounds and their analogs to create drug substances for the treatment of socially significant diseases in humans
  5. Fundamentals for flexible multi-technology separation of rare elements of primary and industrial raw materials and production of functional and composite materials of new generation (including nanoscale) on the basis of their
  6. Fundamentals for the production of new nano-materials

Biological Sciences

  1. Ecology (chemical, energy, building)

Electrical Engineering and Heat Engineering

  1. Electrical Engineering and Electrical Apparatus
  2. Electrotechnical Materials and Products
  3. Electrotechnical Complexes and Systems
  4. Lighting Engineering
  5. Power Electronics
  6. Electrophysics, electrophysical installations
  7. Thermophysics and theoretical the heating engineer
  8. Electrotechnical materials and products
  9. Electrical equipment and systems
  10. Theoretical Electrical Engineering
  11. Light Engineering
  12. Electrotechnology
  13. Devices and methods of measurement (by kinds of measurements of electric and magnetic)

Electronics

  1. Solid-state electronics, radio-electronic components, micro-and nanoelectronics, devices based on quantum effects
  2. Vacuum and plasma electronics
  3. Power Electronics
  4. Optical and opto-electronic devices and complexes

Economics

  1. Economics and National Economics Management (including economics, industrial engineering and management, regional economy, management, innovation management, wildlife management economics, land management)
  2. Mathematical and tool methods of economy

Geology, Exploration and Development of Minerals

  1. Technology and Facilities of Geologic Exploration
  2. Well Drilling and Development Technology
  3. Applied Mining and Petroleum Field Geology, Geophysics, Mine Survey and Subsurface Resources Geometry
  4. Oil and Gas Field Development and Operation

Geosciences

  1. Ecology (Chemical, Power Engineering, Construction)
  2. General and Regional Geology
  3. Petrology, Vulcanology
  4. Mineralogy, Crystallography
  5. Hydrogeology
  6. Engineering Geology, Permafrost Studies and Ground Science
  7. Geochemistry, Geochemical Methods of Minerals Exploration
  8. Geophysics, Geophysical Methods of Minerals Exploration
  9. Geology, Solid Minerals Exploration, Minerageny
  10. Geology, Prospecting and Exploration of Oil and Gas Fields
  11. Land Management, Cadastral Register and Monitoring of Lands
  12. Geo-ecology (Geosciences)

Computer Science and Computer Engineering

  1. System Analysis, Management and Processing of Information (Industry, Information Technologies)
  2. Elements and Devices of Computer Engineering and Control Systems
  3. Engineering and Production Automation and Management (Atomic Industry)
  4. Software of Computers, Complexes and Networks
  5. Mathematical Modeling, Numerical Techniques and Programme Systems
  6. System analysis, management and information processing (energy, instrumentation, computer science manufacturing processes)
  7. Elements< and devices of computer facilities and control systems
  8. >Automation and management of technological processes and manufactures (in energy)
  9. Mathematical and software of computers, complexes and computer networks
  10. Computer-aided design (power, instrumentation, computer science)
  11. Telecommunication systems and computer networks
  12. Computers and systems

Information Security

  1. Information Protection Methods and Systems, Information Security

Mechanical Engineering

  1. Engineering Science, Drive Systems and Machine Components
  2. Technology and Equipment for Mechanical and Physico-Technical Treatment
  3. Welding, Allied Processes and Technologies
  4. Control Methods and Diagnostics in Mechanical Engineering
  5. Theory of Mechanisms and Machines
  6. Materials (Mechanical Engineering)
  7. Machines and devices, processes of refrigerating and cryogenic equipment, air conditioning systems and life support
  8. Turbomachines and combined turbine plant
  9. Hydraulic machines and Hydropneumaggregates
  10. Electromechanics and electric devices
  11. Dynamics and strength of machines, devices and equipment

Materials Technology

  1. Metal Science and Heat Treatment of Metals and Alloys
  2. Powder Metallurgy and Composite Materials

Mathematics and Mechanics

  1. Mechanics of Deformable Solids
  2. Mechanics of Fluids, Gas and Plasma
  3. Dynamics, Strength of Machinery, Instruments and Apparatus

Physic-Mathematical sciences

  • Differential Equations
  • Computational Mathematics
  • Physics of Semiconductors

Nuclear, Heat and Renewable Power Engineering and Concomitant Technologies

  1. Electric Power Plants and Electric Power Systems
  2. Nuclear Power Plants, Including Design, Operation and Decommissioning
  3. Industrial Heat Power Engineering
  4. High-Voltage Engineering
  5. Heat Power Plants, Their Power Systems and Units
  6. Power systems and complexes
  7. Energy devices based on renewable energy
  8. Thermal power plants, their power systems and units
  9. Occupational Safety and Health (energy, electrical engineering)
  10. Information-measuring and control systems (power, instrument)

Philosophic Sciences in Russia

  1. Ontology and Epistemology
  2. Social Philosophy

Philological Sciences in Russia

  1. Russian Literature
  2. Russian Language

Pedagogic Sciences in Russia

  1. Theory and Methodology of Teaching and Training (professional level, foreign languages)
  2. Theory and Methodology of Physical Education, Sports and Fitness Training
  3. Theory and Methodology of Professional Education

Physical Education and Sports

  1. Theory and Methodology of Physical Education, Athletic Training, Recreational and Adapted Physical Education

Radio Engineering

  1. Radio engineering, including systems and TV devices
  2. Aerials, OHF devices and their technologies
  3. Radar and radio navigation

For applying to study PhD in one of the leading Russian State Universities and National Research State Universities go HERE and learn the step-by-step admission process at the end of the page. Then you may fill in all fields in our INFORMATION REQUEST Form and forward it to one of our e-mails: admissions@cferussia.ru or learninginrussia@gmail.com

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We give scholarship in non-medicine subjects if the student has a GPA of 3 or above i.e more than 85% subject to availability of seats.

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Study Nuclear Engineering in Russia

Come study in Russia with Council for Foreign Education in Russia’s; official Education partner of leading Russian State Universities with Council for Foreign education in Russia (CFER) under the Learning in Russia™ program for international students!

This Department was opened in 1966. The whole existence of this Department is closely connected with history, contemporary state and perspectives of the atomic industry. Much work has been done in the area of the educational process organization.

For 40 years the academic staff of the Department has showed itself as competent teachers: in 2002, they were charged to educate students by the new educational program Safety and Non-Proliferation of Nuclear Materials. MEPHI, Moscow and TPU, Tomsk are the only Russian educational institutions which train engineers in this field. Besides these two institutions, this program is featured by the Department of Energy of the USA, such national labs as Pacific North-Eastern laboratory and Los-Alamos laboratory; Swedish nuclear Inspectorate and the International Agency of Atomic Power Engineering.

DEPARTMENT OF NUCLEAR POWER PLANTS

BACHELORS

  • Nuclear power and thermal physics

  • Nuclear Physics and Technologies

  1. Radiation safety and the environment
  2. Physics of fast processes
  3. Safety of Nuclear Material and Nuclear Facilities
  4. Applied Molecular Physics
  5. Thermal physics of nuclear power plants (NPP)
  6. Physical radiation materials science: Physical Durability materials science.
  7. Nuclear reactors and power plants: Information-measuring systems and equipment for nuclear power radiation experiment.
  8. plasma Physics
  9. Physics of thermonuclear fusion
  10. Plasma processes in devices and installations
  11. Plasma-surface interaction
  12. Physics of transport phenomena: Nuclear Methods study of the properties of matter
  13. Physics of transport phenomena: Nuclear instrumentation.
  14. Superconductivity and Physics of Nanostructures
  15. Physical and technical problems of metrology
  16. Nuclear and particle physics
    • Elementary Particle Physics and Cosmology
  17. Electronics and automation of physical plants
    • Micro and Nanoelectronic Devices and Systems for Physical Plants
  • Nuclear Power Plants and Installations

  • Nuclear reactors and materials

  1. Nuclear materials: accounting, control and safe handling
  2. Design and manufacture of fuel elements and assembling Nuclear Power plant
  • Isotope separation technology and nuclear fuel

  1. Nuclear fuel (advanced functional materials)
  2. Molecular-selective phenomena and nano-structured materials

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MASTERS

  • Computer-Aided Design of Thermal and Nuclear Power Stations

  • Nuclear Physics and Technologies

  1. Radiation safety of people and the environment
  2. Automation systems, physical systems and their components
  3. Physics of run-away processes
  4. Technical aspects of the nuclear non-proliferation
  5. Physics of nuclear power plants
  6. Thermal physics of nuclear power plants
  7. Information-measuring system of nuclear power plants and technology of radiation experiment
  8. Micro-and nanoelectronic devices and systems for physical installations
  9. Methods and apparatus for Applied Nuclear Physics
  10. The nuclear-physical methods of investigation of the properties of matter
  11. Durability Physical Materials
  12. Computer health systems
  13. Nuclear physics and astrophysics
  14. Physics of Extreme States of substances
  15. Experimental study and modeling of fundamental interactions of elementary particles and atomic nuclei
  16. Physics of charged particle beams and electrical installations
  17. Medical particle accelerators
  18. Plasma-surface interaction
  19. Plasma processes in devices and installations
  20. Plasma Physics
  21. Physics of thermonuclear fusion
  22. Nuclear Methods
  23. Solar-Terrestrial Physics
  24. Applied Physics and Ion Mass Spectroscopy
  25. Isotope separation of physics and molecular mixtures
  26. Electronics physical facilities
  27. Laser Physics
  28. Particle Physics and Cosmology
  29. Heterostructure physics and nanotechnology electronics
  30. Solid State Physics and Photonics
  31. Superconductivity and Physics of Nanostructures
  32. Applied Superconductivity
  33. Electronics physical facilities
  34. Physical and technical problems of metrology
  35. Medical Physics
  36. Nuclear Electric Power Plant Control
  37. Physics of Kinetic Phenomena
  38. Nuclear and Technical Inspection and Control
  39. Nuclear and particle physics
    • Elementary Particle Physics and Cosmology
  40. Electronics and automation of physical plants
    • Micro and Nanoelectronic Devices and Systems for Physical Plants
  • Nuclear power and thermal physics

  1. Safe handling of nuclear materials

DEPARTMENT OF ELECTRONICS AND AUTOMATION OF NUCLEAR PLANTS

SPECIALIST

    • Electronics and Automation of Nuclear Plants

DOCTORATE

    • Automation and Control of Engineering Processes
    • Engineering and Production Automation and Control (nuclear industry)
    • Design, Operation and Decommissioning of Nuclear Power Plants
    • Thermal Physics and Basics of Thermology
    • Plasma Physics
    • Instruments and Methods of Experimental Physics

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For applying to study Nuclear Engineering in one of the leading Russian State Universities go HERE and learn the step-by-step admission process at the end of the page. Then you may fill in all fields in our INFORMATION REQUEST Form and forward it to one of our e-mails: admissions@cferussia.ru or learninginrussia@gmail.com

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