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Electrical Energetics Systems Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
Provide latest and special knowledge of electrical engineering sciences necessary for the development of electrical energy systems, develop the ability creatively and critically solve, assess and apply gained knowledge designing new electrical energy systems, to teach to apply applied research in the field of electrical engineering, develop the ability creatively apply theoretical knowledge and research results, and to maintain their professional competence by life-long learning.
Learning outcomes:
Knowledge and understanding of the natural science and mathematics fundamentals, understanding of the electrical engineering study field basics that correspond to the study program and will be able to apply them to solve new engineering tasks.
Knowledge and critical evaluation of the latest achievements in the field of electrical engineering studies.
Ability to identify, find and evaluate required scientific and professional information using the databases or other information sources.
Ability to plan and conduct analytical, simulation and experimental research, process and assess the data, provide conclusions.
Ability to see standard and non-standard problems in the field of electrical energetics systems, to clearly formulate and solve them.
Ability to apply their knowledge and understanding to solve the engineering tasks of renewable energy systems, apply theoretical models and research methods, including mathematical analysis, computational modeling and experimental research methods.
Ability to apply their knowledge and understanding to solve the engineering tasks of electrical energy systems, apply theoretical models and research methods, including mathematical analysis, computational modeling and experimental research methods.
Ability to make engineering decisions, innovate the development of new and original engineering ideas and methods of electrical energetics systems.
Ability to apply engineering knowledge and understanding to solve non-standard problems of the renewable energy systems, including those related to other fields of study.
Ability to apply engineering knowledge and understanding to solve non-standard problems of the electrical energetics systems, including those related to other fields of study.
Understanding of the projects management, business aspects and the interaction between technological solutions and the economic consequences, and able to work effectively independently and as a member of a team, be a leader in a team that can be composed of representatives from engineering community and general society.
Holistic understanding of the effects of engineering solutions on the society and the environment, able to comply with professional ethics and standards of engineering, understand the responsibility for the engineering activity.
Ability to understand the applicable methods and their limitations, ability to select appropriate engineering equipment and software. Understanding of the ethical, environmental and commercial engineering requirements.
Knowledge of the organizational principles of the engineering activity, understanding of the interactions of the engineering activity links, ability to evaluate engineering activities in the field of the occupational safety and environmental protection.
Activities of teaching and learning:
The program is designed to create a student-friendly learning environment that emphasizes the work of lecturers and encourages the acquisition of new knowledge based on tasks and research. Such forms of teaching and learning as problem-based teaching and problem-based tasks, case studies, individual and group work, "brain storm", presentations, course projects, etc. are foreseen. The program provides student-oriented workshops that are based on group work, developing practical and social skills. Course projects and individual assignments help students to independently analyze and solve problems of electrical, electronic and energy engineering. Students independently prepare for intermediate and final examinations, under the supervision of a lecturer, prepare the final master's thesis.
Methods of assessment of learning achievements:
The student's achievements are assessed using a diagnostic (to determine the student's achievements and progress after the completion of the topic or part of the course), the formative (continuously carried out through the study process), cumulative (carried out by aggregating the evaluations of the results obtained during intermediate examination), and a summary (formally confirming the student's achievements in studies at the end of the semester). The results of the study program and study subjects during the semester are evaluated through intermediate examination (colloquiums, oral and written presentation of group and individual works). Through collegiate assessment, students are examined by a commission of lecturers and / or engineers - academics, social partners.
Framework:
Study subjects (modules), practical training:
Electrical energy and the market
Electrical Power Systems (with Course Project)
Fundamentals of Research and Innovations
Mathematical Modelling Technologies
Control of Electrical Energy Systems
Modern Electrical Engineering
Electronic Converters (with Course Project)
Power Electronics (with Course Project)
High-voltage Devices
Systemotechnique and Gauges
Modern Electric Drives
Virtual Instrumentation
Modern Operating Systems
Algorithms and Data Structures
Systems Design using VHDL Language
Wind Energy Systems
Photovoltaic Energy Systems
Electromagnetic Pulse Power Technologies
Hydropower and Biofuel
Programmable Logic Controllers
Intelligent Systems
Data Centres
Data Mining Techniques
Electrical Energy Storage Devices
Smart Energy Systems and Relay Protection
Master's Research Work I, II, III
Master Graduation Thesis
Specialisations:
Renewable electrical power engineering.
Technologies of electrical energetics.
Optional courses:
Possibility to choose additional courses in the same study field, it is possible to choose courses in the other study field and topics of course projects.
Distinctive features of a study programme:
The study program involves representatives of social partners who have long-term professional experience in the field of electrical engineering, which allows to highlight the latest and most relevant engineering issues and solutions in the field of preparation of a competitive specialists.
Access to professional activity or further study:
Access to professional activity:
Electrical energy systems engineering master students are able to work in companies maintaining electric power systems, self-manage groups of people preparing electrical engineering projects or continue their doctoral studies in electronics, telecommunications and computer science.
Access to further study:
Access to the third cycle studies.
