Electric Power Stations, Networks and Systems

8.141.00.09 Electric Power Stations, Networks and Systems
Qualification awarded: Master of Electrical energetics, electrical engineering and electromechanics
Entry year: 2021
Mode of study: full
Program duration: 1 year 4 months
Institute: Institute of Power Engineering and Control Systems
Number of credits: 90 ECTS credits
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 7 (Second cycle of QF-EHEA / EQF Level 7)
Field(s) of study: Electrical engineering
Specific admission requirements: No
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: - subject area (field of knowledge, specialty): electrical engineering: electric power, electrical engineering, electromechanics; - orientation of the educational program: educational-professional focuses on current specializations, within which further professional and scientific career is possible: power plants, electrical systems and networks, electrical systems of electricity consumption; control systems for production and distribution of electricity, electromechanical automation systems and electric drive, electromechanics; - main focus of the educational program and specialization: special education and training in the field of power engineering, electrical engineering and electromechanics with the possibility of acquiring the necessary skills for production activities and training at higher levels of education.
Gained competence: - ability to demonstrate knowledge and understanding of scientific and mathematical principles necessary for solving engineering problems and performing research in the field of power engineering, electrical engineering and electromechanics; - ability to demonstrate knowledge of the current state of affairs, development trends, the most important developments and the latest technologies in the field of power engineering, electrical engineering and electromechanics; - ability to demonstrate in-depth knowledge in the chosen specialization; - ability to demonstrate an understanding of the impact of technical solutions in the social, economic, social and environmental context.
- choose methods and model phenomena and processes in dynamic systems, as well as analyze the results; - independently plan and perform experiments, evaluate the results obtained; - apply information and communication technologies and programming skills to solve typical engineering problems; - apply the acquired knowledge and practical skills, adapt the results of scientific research during the creation of new and operation of existing electric power, electrotechnical and electromechanical systems and their components; - apply knowledge and understanding to solve problems of synthesis and analysis of elements and systems characteristic of the chosen specialization; - search, analyze and critically evaluate information from various sources; - work effectively both individually and as a team; - combine theory and practice and make decisions and develop a strategy for solving the problems of specialization, taking into account universal values, social, state and industrial interests; - independently perform experimental research and apply research skills on professional topics; - critically analyze the main indicators of the system and evaluate the used technical solutions and equipment; - apply a systematic approach, integrating knowledge from other disciplines and taking into account non-technical aspects, when solving engineering problems of the chosen specialization and conducting research; - independently design the system and its elements taking into account all aspects of the task; - assess the feasibility and possibility of new methods and technologies in the synthesis of power, electrical and electromechanical systems; - argue the choice of methods for solving a specialized problem, critically evaluate the results and defend the decisions made.
- ability to communicate effectively at the professional and social levels, including oral and written communication in a foreign language; - ability to present and discuss the results obtained and transfer the acquired knowledge at the professional and social levels.
Academic mobility: Within the framework of the EU Erasmus + program on the basis of bilateral agreements between Lviv Polytechnic National University and educational institutions of partner countries
Work placement(s): Pre-diploma internship according to the Master's thesis
Programme director: Seheda Mykhailo Stankovych
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: Obtaining third (educational and scientific / educational and creative) level