EDUCATION FOR TECHNICAL COURSES IN RUSSIA
Russia is famous for its wide range of engineering universities and courses. Engineering education is of high value in the Russian Federation and not only national, but also international students have an opportunity to study their desired engineering courses abroad.
In Russia almost in every city there is at least one engineering university, each of them offering all types of courses for international students.
Russian universities train the best engineers, and it has been proven worldwide that Russian technologies in the engineering sector are on an advanced level.
MEDIUM OF INSTRUCTIONS FOR ENGINEERING EDUCATION
Engineering courses are taught in both Russian and English, so international students are free to choose either medium of instruction.
The international students whose native language is English or who are fluent in it study the engineering degree program of their choice in English medium of instruction, and those who either are not native English speakers or find the language difficult have an option to study an engineering degree program in Russian medium of instruction.
WHICH COUNTRIES ARE INTERNATIONAL STUDENTS COMING FROM TO STUDY IN RUSSIA?
There are many representatives of different countries who come to Russia to study for an engineering degree, but there are some nationalities which are the most prominent. There are numerous students from ex-Soviet countries like Turkmenistan, Uzbekistan, Azerbaijan and others which come to study their engineering degree programs in Russia. As for Asian countries, India and China have the biggest number of international students who come to get a degree in Russia. Speaking of African region, there are students who come from Egypt, Nigeria, Ghana, Zambia, Zimbabwe and Namibia. Last but not the least, European and American students to receive technical education in Russia.
HOW TO APPLY?
Admission process is very simple. First, an applicant should pick which engineering course he or she wants to study in Russia so we can send the complete tuition and admission information. Thereafter, in case the applicant can afford studying at the university of his or her choice, the student is required to send a scanned copy of the international passport and secondary school certificate for eligibility assessment. The assessment takes 1-2 days and, if successful, the student will be notified and asked to pay admission fee so his or her documents are forwarded for processing of the Invitation Letter. The processing takes up to 45 days at the Federal Migration Service.
INFORMATION ABOUT GENERAL ENGINEERING & TECHNOLOGY DEGREES
General engineering and technology refers to a broad understanding of applied engineering and generic knowledge of technological equipment, methods and processes. It is an interdisciplinary area that involves mathematical and computer skills, basic understanding of mechanics, material physics and statistics. Although general engineering graduates gain less theoretical knowledge, they become proficient in the application of engineering principles in various technological problems and can convert conceptual frameworks into functioning systems.
Because it is a generic discipline, engineering colleges and schools usually offer undergraduate degrees and associate degrees in general engineering and technology. Students typically choose in-depth study of technological fields of expertise. Students are free to specialise in Civil Engineering and Mechanical Engineering, Electrical Control, Automotive Technology, Power Transmission and Distribution Technology or Computer Aided Drafting.
Academic programs place great importance on laboratory practice and on application-based examples. Students acquire fundamental engineering principles useful in operating modern technology and design methods, and possess multidisciplinary skills and knowledge to address industrial operations.
Graduates can be employed to work in architecture offices, construction companies, insurance agencies, engineering firms, as well as work in the area of research and development. Examples of job titles include, development engineer, engineering technician, maintenance technician, process technician, and many others.
MAIN ENGINEERING COURSES
Bachelor Programs in Mechanical Engineering in Russia 2020
Mechanical Engineering is a subject that focuses on designing, planning and manufacturing of almost everything that exists so far, from individual parts and pieces to gadgets and large machines or systems.
The work of mechanical engineers is extremely important. They are the ones who take ideas and transform them into products available on the marketplace. Mechanical engineers are responsible for almost everything, be it safety features in cars, medical devices, tools used for maintenance of aircraft, power plants, mobile devices, and many others.
Being a mechanical engineer means applying basic engineering principles and mechanical processes needed to create machines and devices we use every day. Students discover concepts connected to thermodynamics, heat transfer, quality control and product design. There are also courses on materials used in manufacturing processes. Practical learning happens through individual work or team projects, which encourages students to apply their theoretical knowledge.
As a subdiscipline of the Engineering & Technology field, Mechanical Engineering requires advanced knowledge of mathematics, physics, problem-solving skills, as well as the ability to work under pressure.
Students who receive a Bachelor’s or Master’s degree in Mechanical Engineering can engage in promising careers in any sector of the engineering industry. Apart from land vehicles, the mechanical engineers of today are working in Aerospace Engineering, Biomedical Engineering, Electrical Engineering and Energy Engineering.
BACHELOR PROGRAMS IN ELECTRICAL ENGINEERING IN RUSSIA 2020
Electrical Engineering is a discipline that studies electricity and electrical technology. Electrical engineers design, develop, test and fix electrical systems, as well as other electronic devices.
Some of the subsectors of Electrical Engineering include Lighting Design, Energy Engineering, Power and Measurement, Smart Electrical Networks and Systems, Electronics, and others.
Courses in Electrical Engineering are interdisciplinary. They focus on principles from Physics, Mathematics, Computer Science, Electromagnetism, Electronics, as well as fundamental Electrical and Electronic Engineering concepts. Students learn how to take systems and devices apart, understand how they work and how to fix them. Courses also focus on modifying current gadgets, communication systems, creating better devices, and using new technologies to improve systems used by people daily.
The work of Electrical Engineers is very important. They play a role in creating and maintaining functioning of devices and systems from many industries, including Microelectronics, Telecommunication, Lighting, Wiring, Renewable energy, and many others. Phones, Computers, GPS devices, robots, medical technology — they are all engineering marvels made possible through work of electrical engineers. After getting a degree in Electrical Engineering, graduates fully understand the importance of electric power and power generation, and they develop analytical and problem-solving skills. Electrical equipment during work and research, which makes one’s task easier and more efficient.
A bachelor’s or master’s degree in Electrical Engineering allows access to lucrative jobs. Some of the most popular choices include being an acoustic consultant, broadcast engineer, CAD technician, electrical engineer, network engineer or system analyst.
ELECTRONICS & EMBEDDED TECHNOLOGY DEGREES
Electronics is a technical and scientific discipline that studies physical, non-linear, electric systems or electronic components and circuits that include these physical elements or the electronic circuits. Electronics nowadays have tremendous application in many fields like communication, medicine, military equipment and entertainment industry.
Embedded technology studies the combination of computer hardware and software within a device that is designed to perform a specific and repetitive function. They can be found inside such things as automobiles, mobile phones, microwave ovens, digital cameras and other gadgets that we use nowadays.
Students who apply for a bachelor’s or master’s degree in Electronics and Embedded Technology will learn how to select, adapt and develop hardware and software components. Electronics and embedded technology programmes combine theoretical knowledge with laboratory work, they are meant to teach, prove, test and apply laws and theorems that dominate the field.
Graduates from Electronics and Embedded Technology can find jobs in the automotive, computer technology and consumer electronics industries and choose from the following career options: embedded system engineer, embedded systems designer, software engineer, design engineer, electronics engineer, electronics drafter, software or chip developer.
BACHELOR PROGRAMS IN CIVIL ENGINEERING IN RUSSIA 2020
Although the Russian Federation is mostly well-known for its exquisite cuisine, cultural heritage and rich folklore, it is also home to some of Europe’s top universities. Not only do Russian universities have many traditions related to education, but also they have learned a lot from the most famous institutions in the last two decades. Take a Bachelor in Civil Engineering course in Russia and experience it for yourself! Having taken core subjects first, all students enrolled in Bachelor in Civil Engineering in Russia are able to focus on their preferred area of interest, be it Construction, Environmental, Mechanical or Geotechnical Engineering. All of those programs are designed to provide students with comprehensive knowledge essential to all civil engineers. Upon obtaining a Bachelor in Civil Engineering degree, graduates are able to contribute to society in different ways – designing highways, managing water or energy resources, handling toxic waste or protecting people from natural disasters. Do not hesitate and apply for a Bachelor in Civil Engineering in Russia to get a prestigious degree in a challenging field! Look at the list to choose the university most preferable for you.
MATERIALS SCIENCE & ENGINEERING DEGREES
Materials science deals with structural analysis of materials, discovery of new material substances and their application to various industries. The materials engineering field looks into relationships between properties of materials and their mechanical structure at the atomic level.
Professional scientists and engineers develop materials such as metals, ceramics, semiconductors, polymers, composites and biomaterials that other engineers need for their designs. The right materials are used for product innovation in all industries from aircrafts, medical equipment and gadgets to musical instruments and environmental friendly technologies.
Materials engineering is based on supportive areas such as thermodynamics, statistical mechanics and nanoscience. Study programs in material sciences combine in-depth knowledge of the physical, chemical and mechanical properties of materials with the training in production techniques and the selection of appropriate materials for a wide range of applications. Universities offer a wide range of specialisations in the field, such as magnetic and nano-materials, structural materials, electronic materials and interfaces, energy materials and application, biomaterials, and more.
Graduates learn how materials behave and how their properties change during the process of raw materials becoming designed products. Most professionals work in offices using computer-aided design (CAD) software or in development labs, where they have access to cutting-edge equipment. Other specialists work as supervisors in factories or research institutes.
AEROSPACE ENGINEERING DEGREES
Aerospace Engineering is a more complicated way of saying “rocket science”, and everyone knows that it takes a lot to become a rocket scientist. Building, developing and testing aircraft and spacecraft is quite challenging. In fact, you could say it is rocket science!
Aerospace Engineering is split in two sub-fields: Aeronautical Engineering (working with aircraft, jets, helicopters and sometimes submarines) and Astronautical Engineering (designing rockets and spacecraft used in space exploration).
Getting a master’s or bachelor’s degree in Aerospace Engineering requires a strong understanding of physics, mathematics, and engineering principles, which are necessary for research and development students will be conducting after graduation. These exact sciences allow one to better grasp how aircraft and spacecraft can easily move and stay in the air, while improving the results and efficiency of flight tests.
After graduating from the Engineering school, students can offer advice on function, mechanics and aircraft design. They will also have a better understanding of structural design, mechanical integrity and alternative fuels and environmental challenges that must be considered when developing aircraft and spacecraft.
Since Aerospace Engineering is a subfield of Engineering & Technology, you can find related fields and courses in Robotics, Transportation Engineering, Marine Engineering, Automotive Engineering and Mechatronics. Students who graduate from Aerospace Engineering programmes have a chance to find exciting and challenging jobs as maintenance engineers, operation technicians, aircraft developers or spacecraft developers.
CHEMICAL ENGINEERING DEGREES
Chemical Engineering is an interdisciplinary subject that deals with transforming raw materials into useful products. People who work in the sphere of Chemical Engineering focus on developing and optimising processes used to create and refine products. Chemical engineers also strive to create better materials which have improved properties, are more durable and last longer.
Chemical Engineering is a broad field of study that encompasses Chemistry, Biology, Applied Mathematics and Engineering Science.
In Chemical Engineering courses students gain knowledge on such subjects as mechanics, thermodynamics, chemical reaction kinetics, and process design. All the information obtained during engineering and scientific courses is used for research and analytical work. Not to mention, upon graduation students will have developed problem-solving and evaluating skills. From optimising DNA sequencing to discovering how algae can be used as an alternative for petroleum, it can be said that chemical engineers have a solution to any problem. Chemical Engineering graduates learn to develop new drugs and fertilizers, increase energy efficiency and manage chemical plants.
Many people might not understand exactly what chemical engineers do and how things done by them work, but one should not be worried. Chemical Engineering graduates know for sure that many of the things people use on a regular basis and take for granted is the result of their hard work. After all, it is engineers who are constantly making the world safer and more progressive.
Students who graduate with Bachelor's or Master's degrees in Chemical Engineering find jobs as chemical engineers, energy engineers, product development scientists, material scientists, nuclear engineers, and others.
BIO & BIOMEDICAL ENGINEERING DEGREES
Biological and Biomedical Engineering is a subdiscipline in the field of Engineering and Technology which aims to improve human health and health care systems through innovative use of technology.
Bachelors and Masters of Science in Bio and Biomedical Engineering are interdisciplinary degrees that involve the same mathematical, analytical, and conceptual knowledge from related fields such as Biology, Chemical Engineering, Robotics, Mechatronics, Materials Science, and even Computer Science.
Some of the subdisciplines covered by Bio and Biomedical Engineering are orthopaedic implants, medical imaging, stem cell engineering, biomedical signal processing, and others.
Biomedical Engineering students develop a strong understanding on both biological processes and engineering, allowing them to bring new improvements in the Medicine field. They will learn how to develop, maintain, and improve new machines and medical tools which are used in hospitals, clinics and medical research centres. The life of many people depends on proper functioning of these devices. It is crucial that the devices are reliable and stable, both from a hardware and software point of view.
Bioengineering students focus more on biological and chemical principles, research and laboratory work. They learn everything there is to know about exciting field of stem cells engineering and creating artificial organs. This, together with cloning, has the potential to save millions of human lives and increase our lifespan significantly. Some are already arguing that if people can live up to 100 years, it is possible to live to 1,000 years too using in Bio and Biomedical Engineering principles.
A bachelor's or master's degree in Bio and Biomedical Engineering opens promising opportunities and career prospects. Graduates can find exciting work in the following occupations: clinical engineer or scientist, medical device developer, biomechanics engineer, bioengineering researcher.
ENVIRONMENTAL ENGINEERING DEGREES
Environmental engineering is related to studying clean technologies that have little to no impact on the environment. An environmental engineer is involved in research and development of alternative energy sources, water reclamation, waste treatment and recycling. Environmental engineering also focuses on protecting public health, thus contributing to a sustainable development. Sub-disciplines of environmental engineering include geotechnical engineering, structural engineering and transportation engineering. As a broad field of study, environmental engineering is related to other disciplines like Chemistry, Biology, Mathematics, Technology, Geography, Public Safety and Economics.
Students who apply for a bachelor’s or master’s degree in environmental engineering should be able to evaluate the performance of engineering systems and incorporate innovations or develop new technologies to enhance environmental protection. Environmental engineering students learn to collect, construct and evaluate environmental impact data, use logic and reasoning to identify the strengths and weaknesses of alternative solutions.
Graduates of an environmental engineering programme can find jobs in such industries like chemical industry, waste treatment, fuel production, energy, manufacturing, as well as government departments and professional organisations. They can choose from the following career options: environmental engineer, air quality specialist, environmental scientist, environmental researcher, engineering technician, environmental sales engineer.
INDUSTRIAL & SYSTEMS ENGINEERING DEGREES
Industrial and systems engineering studies methods are used in the optimisation of complex engineering systems to improve the efficiency of engineering processes and the quality of resulting products. Industrial engineers make use of work force, technologies, materials and financial resources to make sure production processes reach their set targets. They use their technical skills to understand how various engineering structures work and how to apply business knowledge to increase productivity.
Universities offering bachelor’s and master’s degrees in industrial and System Engineering aim to provide technical understanding on the subject with lectures in mathematics and physics, as well as in-depth knowledge of management principles. Students can further specialise in specific areas like manufacturing systems, logistical studies and operations research, project management, policy analysis, applied data mining, supply chain and logistic engineering.
Due to versatility of the industrial engineering field, graduates can practice in various industries such as manufacturing, supply chain optimisation, logistics and transportation, information or communication systems, or construction. Industrial engineers work in various sectors handling the divisions of production, quality control, warehousing, maintenance, cost planning, purchasing and even human resources or marketing.
Professional positions in industrial and systems engineering include system analysts, operations engineers, risk advisors, manufacturing supervisors, corporate value consultants, process integration specialists or heads of operations.
ENERGY & POWER ENGINEERING DEGREES
Energy engineering degrees are related to studying production, storage, distribution and use of energy within natural or man-made energy systems. Power systems engineering involves generation and transmission of electricity.
Energy and power engineers work with various natural resources like fossil fuels or petroleum and try to increase the use of renewable or sustainable energy sources such as wind, solar and wave power, biomass, hydroelectricity, or nuclear power. Professionals focus on finding more efficient and clean ways to supply energy, as well as to develop innovative technologies and methods in order to meet global needs for electricity.
Masters in Energy and Power Engineering typically make use of combined science and engineering theoretical lectures with practical lab courses. Students attend classes in mechanical studies, energy resources characteristics, electric power conversion, distribution and storage systems, costs and economical aspects, sustainable and renewable energies, and environmental protection.
Energy and power professionals work in a variety of sectors, including designing and testing machinery, improving existing processes, developing strategies to deal with energy requirements, offering consultancy for the reduction of energy consumption or developing managerial skills to lead teams of engineers and technicians.
AUTOMOTIVE ENGINEERING DEGREES
Automotive Engineering is a subdiscipline in the field of Engineering and Technology which focuses on designing new vehicles or finding ways to improve the current machine technology and systems. Automotive Engineering is an interdisciplinary subject which intersects with knowledge from other fields, such as Electrical Engineering, Mechatronics, and Materials Science.
The future definitely looks bright for the automotive industry, as engineers continue to develop the next generation of hybrid cars while standing at the forefront of innovations like flying or self-driving vehicles.
Automotive Engineering courses combine tools and methods used in Mechanical, Electrical, Electronic, Safety and Software Engineering. These instruments allow engineers to integrate functionality, safety, and aesthetic in order to create perfect driving machines. In the Automotive Engineering field, you can specialise in design, research and development, testing and quality control, or the production of vehicles and automotive components.
Being an automotive engineering is exciting because right now the entire industry is going through a massive shift. In an effort to reduce carbon dioxide emissions, an increasing number of car manufacturers are moving away from fossil fuels. They need new car designs, systems, and manufacturing processes to achieve their goal. The innovations don’t stop here. As we revolutionise transportation, the impact of machine learning, time traffic data, and connected smart vehicles will grow. In 10 or 20 years, we might simply get in a car and tell it where to go. Your work could make this engineering dream real.
Students who graduate from a Bachelor’s or Master’s degree in Automotive Engineering find career opportunities as automotive manufacturing engineers, automotive technical consultants, automotive designers, or quality assurance managers.
MARINE ENGINEERING DEGREES
Marine engineering is the discipline that deals with matters related to the design, innovation, construction and maintenance of seagoing vessels and navigation equipment. Marine engineers focus primary on the development and production of internal systems of boats, ships, or submarines. They are engaged in designing propulsion systems, auxiliary power machinery and operation equipment. Their technical responsibilities also include working on-board to maintain these systems.
Marine engineering is closely related to other fields such as naval architecture, nautical sciences, oceanographic engineering, or automotive and mechanical engineering. These study areas require very good knowledge of physics, and more specifically fluid mechanics, propulsion, applied mathematics, control engineering, and computer-aided design (CAD).
Students of marine engineering have the opportunity to specialise in certain areas including hydrodynamics, naval operations, design and logistics, resources and aquaculture and technology management. A graduate of marine engineering possesses good knowledge of mechanics, hydraulics, materials science and specialised computer software.
Professionals work in many different settings and industries, from marine engineering firms and the naval forces, to offshore oil and gas industries and mineral extraction companies, and marine consultancy and survey agencies. Typical job roles include ship engineer, travelling service engineer, sales engineer, port engineer, consultant in maritime accidents, casualties and claims.
Mechatronics is an interdisciplinary engineering field that combines principles from mechanics, electronics, computer engineering, robotics and automatic control. Mechatronics engineers design, develop and test a broad range of automated machines from industrial systems, artificial intelligence and medical equipment, to consumer products. Since their field involves such broad knowledge of engineering, mechatronics professionals are often general engineers, rather than having a particular specialisation.
Engineering colleges and schools typically offer undergraduate studies in mechatronic engineering. Students can choose a further specialisation at postgraduate level. Mechatronics can also be offered as a concentration for mechanical engineering, electrical engineering or information technology programmes.
Studies focus on laboratory practice and applied examples. They gain basic knowledge of engineering processes, product design as well as the use of digital electronics or computer-aided design (CAD) software. Students need to possess mathematical and technical skills, logical analysis, project management and the ability to work in teams. Professionals also keep in touch with the global needs of society and innovate machinery according to those needs.
Mechatronics professionals work in various areas such as aerospace industry, chemical processing, communication, healthcare, nanotechnology, manufacturing, automation and control system design. Jobs in the field include product development, control-system engineering, data-logging engineering, electro-mechanical technology, consulting, inventing, and more.
MINING, OIL & GAS DEGREES
Mining, oil and gas studies include all operations involved in the exploration, evaluation and extraction of minerals, metals, petroleum and fossil fuels from earth. Mining engineers investigate mineral resources and are responsible for planning and supervising the construction of mines. Petroleum and gas engineers evaluate crude oil and gas reservoirs and oversee drilling operations. Professional engineers in these fields are involved in all phases of extraction, from discovery, feasibility studies, optimisation of extraction, construction and maintenance of mines and wells, to the safety of the crew and evaluating effects on the environment.
Engineering schools and departments offer a wide range of concentration tracks within the area of mining, oil and gas. Typically, students and graduates of mining, oil and gas degrees choose a particular specialisation such as raw materials, processing, reservoirs, drilling and completion, production, mine management, and more. Oil engineers spend a good amount of time in offices and laboratories, but also at mining or drilling sites. Their job can involve extensive travelling. Graduates and professionals in mining, oil and gas work in the extraction industry, but also in research and development, legal advising, education, manufacturing and machinery design, or managerial positions. Example roles include mine manager, drill planner and designer, technical service manager, production engineer, government inspector, petroleum attorney, investment analyst, chief executive.
Robotics is defined as the field of computer science and engineering that deals with the design, construction, operation, and application of robots. Robots are automated machines that can assist humans in a variety of settings, from manufacturing processes, to working in critical conditions, unsuitable for human life. Robotics specialists aim to achieve diverse tasks by designing mechanical devices, able to complete them intelligently. Robotics is related to other science sub-fields such as computer science, character animation, machine design, cognitive science, bio-mechanics. Main sub-divisions of robotics include: android science, artificial intelligence, nano-robotics, robot surgery.
Studying robotics, students will acquire information related to computer graphics, gadgetry, mobile robot programming, robotic motion methods, mathematical algorithms, social implications of technology, and more. Apart from learning specific scientific methods, graduates will gain skills that involve mathematical thinking but also artistic vision. Robotics will prepare specialists in competencies such as technology design, programming, repairing and installing equipment for machines, etc.
Career paths in robotics cover a large subject palette, from medicine to engineering and IT. Robotics graduates usually engage in jobs as laboratory assistants, testing technicians, quality assurance staff, programmers, systems controllers, or researchers.
SUSTAINABLE ENERGY DEGREES
When you pursue a Bachelor’s or Master’s degree in Sustainable Energy, you’ll learn how to make use of alternative energy sources, explore new energy technologies and energy production capabilities. You'll be able to use this knowledge to improve energy efficiency in a way that will overall reduce the negative impact on our natural environment.
Sustainable Energy means finding clean renewable energy sources that can be reused and renewed through modern technologies. Think in terms of solar panels, wind and water turbines, geothermal energy, and so on.
We all know that our planet and its resources are in severe danger. Global warming, climate change and high air pollution are all the effects of fossil fuel consumption. Maybe you cannot put an end to it, but you can certainly reduce the negative effects if you learn to provide new solutions for Sustainable Energy.
Sustainable Energy covers sub-fields including Solar Energy, Wind Energy, Geothermal Energy, Ocean Energy, and Biomass Energy. Graduates in this field will find career opportunities as energy consultants, energy auditors, wind power engineers, and environmental managers.
TRANSPORTATION ENGINEERING DEGREES
Transport engineering is the application of scientific and technological principles in the planning, functional design, operation and facilities management for any means of transport (road, rail, water and air) in order to provide a safe, fast, comfortable, convenient, economic travel for people and goods. Transport engineering is connected to similar disciplines such as: electrical engineering, mechanical engineering, aerospace and marine engineering.
The main branches of transport engineering are: traffic engineering, highway engineering, port and harbour engineering, airport engineering, infrastructure engineering. Academic study programmes include topics such as transportation safety and design, urban planning, traffic engineering and simulation, highway traffic operations, public transportation systems.
Transportation engineers apply technological knowledge as well as an understanding of the economic, political, and social factors. They usually work directly with urban planners to ensure that the transportation system contributes to the quality of life of the community. Transport engineering students will obtain fundamental theoretical and practical knowledge to perform engineering calculations, demonstrations and applications using specialised transport engineering software. They will assess interdependencies between transport, urban and regional planning following requirements of sustainable mobility.
Graduates can follow careers in railway companies, public transport companies, local roads administration, research institutes, road and rail traffic design.
1. Chechen State University
2. Rybinsk State Aviation Technical University named after PA Solovyov
3. Grozny State Oil Technical University named after M.D. Millionshikova
4. Kabardino-Balkarian State Universitys
5. Pskov State University
6. Moscow Aviation Institute (National Research University)
7. Moscow Institute of Physics and Technologies
8. Moscow International University
9. Tula State Lev Tolstoy Pedagogical University