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Renewable Energy Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
To train energy specialists with the knowledge, abilities, and skills necessary to apply renewable energy technologies, manage and design renewable energy systems, and understand technological maintenance processes and their connections with the traditional electrical energy system in the fields of production, delivery, distribution, and consumption.
Learning Outcomes:
Knowledge and Its Application
Will understand the general laws and principles of natural sciences and Mathematics necessary for comprehending the fundamental basics of the Electronics and Electrical Engineering study fields.
Will be familiar with the key concepts of Electronics and Electrical Engineering and understand their meaning.
Will have fundamental knowledge of Electronics and Electrical Engineering relevant to practical applications.
Will be aware of problems and solutions in related fields of study.
Will be able to apply knowledge and understanding to solve Electronics and Electrical Engineering problems creatively using known methods.
Will be able to apply knowledge and understanding in analyzing engineering tasks, selecting appropriate methods, experimental and manufacturing equipment.
Will be capable of using analytical and modeling methods to solve engineering problems in the field of Electronics and Electrical Engineering.
Research Skills
Will be able to find the necessary professional information using databases and other scientific and engineering information sources.
Will be able to conduct experiments needed to solve engineering problems, process the results, and present practical conclusions based on these results.
Will have skills in working with equipment used in the field of Electronics and Electrical Engineering.
Specialized Skills
Will be able to select engineering solutions, tools, and equipment necessary for implementing these solutions.
Will be able to combine theoretical and applied knowledge to solve engineering problems.
Will understand the ethical, environmental, and commercial aspects of engineering activities.
Will understand the principles of engineering activity organization and be familiar with the key requirements of occupational and fire safety.
Will be able to apply engineering knowledge and understanding to formulate and carry out design tasks according to specified requirements.
Will understand design methodologies and be able to apply them.
Social Skills
Will be able to solve engineering problems independently and in a team.
Will be able to communicate effectively with the engineering community and the general public.
Personal Skills
Will understand the impact of engineering solutions on society and the environment, adhere to professional ethics and engineering standards, and recognize responsibility for the outcomes of engineering activities.
Will be knowledgeable about the key aspects of project execution and management at the engineering activity level.
Will recognize the importance of lifelong learning and be prepared for continuous self-improvement.
Teaching and Learning Activities:
Lectures, seminars, practical exercises, laboratory work, group work, case analysis, internships, independent student studies, project development, presentations, and more.
The study program is completed with the defense of a Final Thesis independently prepared by the student.
Methods of Assessment of Learning Achievements:
The student's knowledge, skills, and competencies acquired during the study program are evaluated based on the completion of all independently performed assignments throughout the semester and examinations during the session.
The study outcomes achieved by the student upon completing a course/module are assessed by assigning them to achievement levels: excellent, typical, and threshold.
The Final Thesis is defended publicly before the qualification commission.
Framework:
Study Subjects (Modules), Practical Training:
General Collegiate Study Subjects:
Business communication, Foreign Language, alternatively elective subjects: (Sociology, Psychology, Sustainable development)
Environmental and Human Safety.
Core Study Subjects:
Mathematics, Physics, Electrical Engineering Materials, Application Program, Engineering Graphics, Engineering Mechanics, Electrical Circuit Analysis, Electronics, Electrical Measurements, Modern Electrical Machines and Drives, Automatic Control Systems, Testing and Diagnostics of Electrical Devices,
Intelligent Electrical Devices and Controls, Engineering Economics, Programming, Renewable Energy Systems, Designing Renewable Energy Systems,
Artificial Intelligence Systems, Advanced Electrical Systems and Relay Protection, Electrical Energy, Engineering Economics, Project Management, Applied Research, Electrical Safety, Law
Internships/ Practical Training:
Technological 1, Technological 2,
Industrial Practice 1, Industrial Practice 2, Final Practice.
Completion of Studies:
Studies are completed by defending the Final work individually prepared by a student.
Optional Courses:
Modern electrical systems, Scientific workshop project, Biomass energy, Fundamentals of cogeneration, Interdisciplinary project, Digital twin technologies, Geothermal energy, Lightning protection, Autonomous energy systems,
Distinctive Features of a Study Programme:
The graduate possesses knowledge of renewable electricity supply system management, relay protection and automation of distributed generation systems, as well as the economics and market aspects of the electrical energy sector. They are capable to professionally and competently analyze and evaluate technological processes in renewable energy by modeling the key parameters of power sources, selecting management methods for renewable energy technologies within the energy system, and applying knowledge of controllers in automatic control systems.
Access to Professional Activity or Further Studies:
Access to Professional Activity:
A graduate of the Renewable Energy study program will have opportunities to work not only in organizations that develop and operate renewable energy sources but also in energy engineering companies that design, install, or maintain renewable energy sources and systems. Additionally, career prospects will be available in public and private enterprises engaged in electricity generation, transmission, distribution, and consumption activities.
Access to Further Studies:
The graduate has the right to apply for university programs in the field of energy engineering.
