Power Engineering and Management

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Study Programme
Power Engineering and Management

Degree Programme
First cycle degree programme

Level of qualification
Bachelor of Science in Electrical Engineering and Information Technologies, in Power Engineering and Management

Occupational Profiles of Graduates
Graduates from this study curriculum are capable to create their own business or to be emplyed in some of the companies that are dealing with: generating electricity by clasical or renewable sources; trading; power distribution and transmission companies; management, design, protection, automation and control of electric power facilities; consulting services in project management studies and techno-econimic analysis; energy efficiency and environment etc.

The Programme Learning Outcomes
Study programme Power engineering and Management follows the needs of the companies in power engineering area in order to create modern educated engineer that will have professional knowledge in power engineering, information and communication technologies, as well as, competence and knowledge for managing complex technical projects in a new market oriented business environment. In this study programme the students are studying technologies for power generation from clasical and renewable sources; substation and control systems in power systems; modern software tools for solving engineering tasks; methods for efficient usage of electricity, as well as, managerial skills and techniques of project management.

International Accreditation
The first cycle study programs at FEEIT are accredited by the German Accreditation Agency for Study Programmes in Engineering, Informatics, Natural Sciences and Mathematics (ASIIN), which is a world leader in quality assurance in higher education. This accreditation confirms that the study programs satisfies the criteria for Bachelor degree programs specified in EUR-ACE Framework standards for the accreditation of engineering programs and the content studied are relevant to areas covered in study programs.

General Learning Outcomes

Knowledge and understanding
  • Demonstrate knowledge and understanding in the scientific field of electrical engineering, based on education and training, including knowledge of theoretical, practical, conceptual, comparative, and critical perspectives in the scientific field according to the appropriate methodology.
Application of knowledge and understanding
  • Demonstrate the ability to apply acquired knowledge and understanding in a professional manner.
  • An ability to identify, analyze and solve complex engineering problems by selecting an appropriate method.
Ability to assess
  • An ability to collect, analyze, evaluate and present information, ideas, and concepts based on relevant data.
  • Making an appropriate assessment taking into account personal, social, scientific and ethical aspects.
Communication skills
  • An ability to communicate effectively in both verbal and written forms with professional and non-professional audiences.
  • An ability to work effectively as an individual or as a member of a team taking shared responsibility for collective results.
  • Ability to participate independently, in a professional manner, in regards to scientific and interdisciplinary discussions.
Learning skills
  • Commitment to the professional development and lifelong learning achieved through higher education, technical training, membership in professional societies, and other activities in order to update already acquired knowledge in the relevant field to achieve continuous professional growth.
  • An ability to acquire and apply new knowledge as needed using appropriate learning strategies.


Specific Learning Outcomes

Knowledge and understanding
  • Demonstrate knowledge and understanding in the scientific field of electrical engineering, based on education and training, including knowledge of theoretical, practical, conceptual, comparative, and critical perspectives in the scientific field according to the appropriate methodology.
  • Demonstrates knowledge and understanding of research, development, engineering design in industrial processes and power engineering and management.
  • Understanding and knowledge of current issues related to scientific research and new sources of knowledge.
Application of knowledge and understanding
  • An ability to identify, analyze and solve complex engineering problems.
  • An ability to apply knowledge and understanding in a way that demonstrates professionalism to the relevant field or profession.
  • An ability to identify, analyze and solve problems related to power engineering and management.
Ability to assess
  • An ability to collect, analyze, evaluate and present information, ideas, and concepts from relevant data.
  • Making an appropriate assessment taking into account personal, social, scientific and ethical aspects.
  • An ability to provide answers to both theoretical and practical issues, in order to give explanations and choose the appropriate solution.
  • An ability to analyze, evaluate and present information, ideas, and concepts based on relevant data in the field of power engineering and management of power plants.
Communication skills
  • An ability to communicate effectively in both verbal and written forms with professional and non-professional audiences.
  • An ability to work effectively as an individual or as a member of a team taking shared responsibility for collective results.
  • An ability to participate independently and professionally in specific, scientific and interdisciplinary discussions.
Learning skills
  • Commitment to professional development and lifelong learning through higher education, technical training, membership in professional societies, and other activities in order to update already acquired knowledge in the field and to achieve continuous professional growth.
  • An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
  • Demonstrate a high degree of independence initiative for learning and professional development.
  • Understanding the need for learning and ability for continuous professional development, through the use of professional and scientific literature, professional training, continuing formal education, membership in professional organizations, etc.
  • Awareness of new technologies and the ability to evaluate and use modern software development tools.
  • An ability to use information technologies for distance and e-learning.
  • Skills for cooperative, competitive and individual learning.
  • Applying active teaching and learning techniques.
Semester 1
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ08З009 Mathematics 1 7 3+3+0+0
3ФЕИТ08З016 Physics 1 7 3+2+1+0
3ФЕИТ06З005 Fundamentals of Electrical Engineering 7 4+3+0+0
3ФЕИТ07З027 Programming and Algorithms 6 2+2+2+0
Elective course – Foreign Language 3
Elective courses
Code Title ECTS No of classes per week
3ФЕИТ123006 German 3 2+1+0+0
3ФЕИТ123017 French 3 2+1+0+0
3ФЕИТ123003 English 3 2+1+0+0
3ФЕИТ123015 Russian 3 2+1+0+0
Semester 2
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ08Л010 Mathematics 2 7 3+3+0+0
3ФЕИТ08Л017 Physics 2 7 3+2+1+0
3ФЕИТ06Л004 Fundamentals of Electric Circuits 7 3+2+1+0
Sport 0 0+2
Elective course 1 6
Elective course 2 3
Elective course 1
Code Title ECTS No of classes per week
3ФЕИТ07Л004 Libraries and Programming 6 2+2+2+0
3ФЕИТ07Л025 Data Structures and Programming 6 2+2+2+0
Elective course 2
Code Title ECTS No of classes per week
3ФЕИТ11Л001 Practicum on Matlab 3 0+1+2+0
3ФЕИТ03Л002 Electrical Materials 3 2+0+1+0
Semester 3
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ08З011 Mathematics 3 6 3+3+0+0
3ФЕИТ03З005 Measurements in Electrical Engineering 6 3+1+1+0
3ФЕИТ043027 Software Tools in Power Engineering 6 3+0+2+0
3ФЕИТ05З035 Signals and Systems 6 3+2+0+0
Elective course 1 6
Elective course 1
Code Title ECTS No of classes per week
3ФЕИТ05З018 Electronics 6 3+1+1+0
3ФЕИТ05З019 Electronics 1 6 3+1+1+0
Semester 4
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ02Л007 Electric Machines and Transformers 6 3+1+1+0
3ФЕИТ05Л015 Electromagnetics 6 3+2+0+0
3ФЕИТ04Л012 Management and Engineering Economy 6 3+2+0+0
Elective course 1 3
Elective course 2 3
Elective course 3 6
Elective course 1 & 2
Code Title ECTS No of classes per week
3ФЕИТ08Л001 Probability 3 2+1+0+0
3ФЕИТ08Л003 Discrete Mathematics 1 3 2+1+0+0
3ФЕИТ08Л008 Complex Analysis 3 2+1+0+0
3ФЕИТ08Л012 Numerical Methods  3 2+0+1+0
Elective course 3
3ФЕИТ01Л020 Control Systems 6 2+2+1+0
3ФЕИТ01Л021 Automatic Control 1 6 2+2+1+0
Semester 5
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ04З004 Power Plants 6 3+2+0+0
3ФЕИТ09З019 Transmission and Distribution Power Systems 6 3+2+0+0
3ФЕИТ04З019 Project Management 6 2+2+0+0
3ФЕИТ04З023 Electrical Substations 6 3+2+0+0
Elective course 6
Elective course
Code Title ECTS No of classes per week
3ФЕИТ10З009 Introduction to Telecommunications 6 3+1+1+0
3ФЕИТ10З020 Communication Technologies 6 3+1+1+0
Semester 6
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ04Л014 Renewable Energy Sources for Electricity Generation 6 3+2+0+0
3ФЕИТ04Л024 Power System Protection 6 2+2+1+0
Elective course 1 6
Elective course 2 6
Elective course 3 6
Elective course 1, 2 & 3
Code Title ECTS No of classes per week
3ФЕИТ04Л003 Power Plant and System Operation 6 3+2+0+0
3ФЕИТ03Л001 Electrical Measurements of Non-electrical Quantities 6 3+1+1+0
3ФЕИТ04Л006 Grounding, Professional Risk and Safety in Power Plants 6 3+2+0+0
3ФЕИТ04Л011 Small Hydro Power Plants 6 3+2+0+0
3ФЕИТ04Л013 Nuclear Power Plants 6 3+2+0+0
3ФЕИТ04Л015 Operational and Financial Managemet 6 3+2+0+0
3ФЕИТ04Л029 Photovoltaic Systems 6 3+1+1+0
Semester 7
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ04З008 Cogeneration Plants 6 3+2+0+0
3ФЕИТ04З028 Power Plant and Substation Control Systems 6 3+2+0+0
Elective course 1 6
Elective course 2 6
Elective course 3 6
Elective course 1, 2 & 3
Code Title ECTS No of classes per week
3ФЕИТ04З001 Business and Entrepreneurship in Engineering 6 3+2+0+0
3ФЕИТ04З002 Wind Power Plants 6 3+2+0+0
3ФЕИТ04З005 Energy Efficiency and Environmental Management 6 3+2+0+0
3ФЕИТ04З007 Identification and Risk Management in Engineering Projects 6 3+2+0+0
3ФЕИТ04З018 Electric Power Plants Planning and Operation 6 3+2+0+0
3ФЕИТ04З021 Design and Integration of Renewable Energy Sourses in Power Systems 6 3+1+1+0
3ФЕИТ04З025 Quality Management Systems and Standardization in Engineering 6 3+2+0+0
3ФЕИТ04З026 Systems of Artificial inteligence in Power System 6 3+1+1+0
Semester 8
Mandatory courses
Code Title ECTS No of classes per week
3ФЕИТ04Л022 Designing of Power Plants and Substations 6 3+2+0+0
3ФЕИТ04Л009 Computer-based Modeling in Power Engineering 6 3+2+0+0
3ФЕИТ12Л007 Final Thesis 9
3ФЕИТ12Л016 Internship 3
Elective course 1 3
Elective course 2 3
Elective course 1 & 2
Code Title ECTS No of classes per week
3ФЕИТ09Л008 Economic Assessment of Investments 3 2+1+0+0
3ФЕИТ04Л010 Communication Skills 3 2+1+0+0
3ФЕИТ11Л002 Entrepreneurship 3 2+1+0+0
3ФЕИТ03Л009 Principles of Quality Management 3 2+1+0+0
3ФЕИТ04Л020 Project Management and Ethics in Engineering 3 2+1+0+0
3ФЕИТ09Л021 Regulation in Electricity Sector 3 2+1+0+0
3ФЕИТ08Л015 Technological Innovations 3 2+1+0+0