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Electrical Energetics, Electrical Engineering and Electromechanics

3.141.00 Electrical Energetics, Electrical Engineering and Electromechanics
Qualification awarded : Master of Electric Power Engineering, Electrotechnics and Electromechanics
Entry year: 2017
Program duration: 1 year 9 months
Number of credits: 120 ECTS credits
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: Second (Master) level, 8-th level of NQF, EHEA second Cycle
Field(s) of study: Electrical engineering
Specific admission requirements: No
Specific arrangements for recognition of prior learning:
Qualification requirements and regulations, including graduation requirements: The full implementation of the curriculum and presentation of a thesis for a bachelor's degree
Characteristics of the educational program:
The curriculum includes on-campus classes (lectures, seminars, laboratory classes and practical classes) and independent studies. The programme provides up-to-date specializations which enable further professional and academic career, including electrical power plants, electrical systems and networks, electric systems of electricity consumption, power generation and distribution control systems, electromechanical automation systems and electric drive, electromechatronics. Training under this programme relies on the well-known principles and results of the contemporary research in the field of power engineering, electrical engineering and electromechanics and provides opportunities for gaining research skills required for academic career. Master's graduates majoring in this specialty can design, study, operate and maintain electrical power generation and distribution systems, electromechanical systems of industrial mechanisms, automated aggregates for electrical engineering systems and control systems for electric vehicles.
Gained competence:
- knowledge of the special chapters of fundamental disciplines in the scope required for studying professionally oriented disciplines;
- knowledge of the modern methods of control of electric power and electromechanical systems;
- knowledge of the modern trends of electrical engineering development;
- knowledge of the methods of analysis of electric power and electromechanical systems.
 - ability to apply the knowledge and understanding of scientific and mathematical principles required for solving engineering problems and doing research in Electric Power Engineering, Electrotechnics and Electromechanics;
- ability to demonstrate knowledge of the state of the art, development tendencies, most important solutions and latest technologies in Electric Power Engineering, Electrotechnics and Electromechanics;
- ability to use in-depth knowledge of the field of specialization;
- ability to show understanding of the effect of engineering solutions in the social, economic and ecological contexts;
- skills in methods selection and modelling of the phenomena and processes in dynamic systems, as well as in the analysis of the obtained results;
- ability to combine theory and practice, make decisions and develop strategies of activity for solving problems in the field of specialization taking into account human values, social, public and production interests;
- skills in efficient individual and team work;
- skills in independent planning and carrying out experiments, and evaluating the results;
- skills in application of information and communications technologies and programming skills for solving typical engineering problems;
- application of the obtained knowledge and practical skills, ability to adapt the results of the scientific research when developing new and operating the existing electric, electrotechnical and electromechanical systems and their elements;
- skills in applying the acquired knowledge and understanding for solving problems of synthesis and analysis of elements and systems typical of the field of specialization;
- skills in search, analysis and critical evaluation of information taken from different sources. - skills in individual experimental research and application of research skills according to the subject of specialization;
- skills in using the systems approach, integrating the knowledge from other disciplines and taking into consideration non-engineering aspects when solving engineering problems and doing research in the field of specialization;
- skills in independent designing of a system and its elements, considering all the aspects of a set problem;
- skills in assessing the feasibility of new methods and technologies for the problems of synthesis of electric, electrotechnical and electromechanical systems;
- ability to formulate a scientific or engineering problem, to prove the choice of the methods for solving the problem, critically assess the obtained results and defend the made decisions;
- ability to participate in a scientific discussion, present the results of research work in the form of scientific texts.
Mode of study: full
Academic mobility:
Work placement(s): Pre-diploma internship according to the Master's thesis
Programme director: Malyar Andriy Vasylovych
Occupational profiles of graduates: Electrical Power Plants, Electrical Systems and Networks, Control Systems for Electric Power Generation and Distribution, Electric Power Supply Systems, Energy Management, Electromechatronics, Electromechanical Automation Systems and Electric Drive, Electrical Equipment of Vehicles
Access to further studies: Education Program for a Master of Science, Advanced Training Program
Other program features:
Institute: Institute of Power Engineering and Control Systems