| Study Location | Kyiv |
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| Academic Field | G3 Electrical Engineering |
| Type | Postgraduate, Full time (on-line study is available) |
| Nominal Duration | 1,4 years (90 ECTS) |
| Study Language | English |
| Awards | Master of Electrical Engineering |
| Entry qualification | Bachelor's Degree is required. Compulsory entrance exam. The entry qualification documents are accepted in English. In most cases you can request a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original. You must take the original & legalized (according to the international agreements) entry qualification documents along with you when you finally enter the university. |
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| Territory requirements | Citizens of the Russia, Iran, Belarus and North Korea are not allowed. |
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| Language Requirements | English (B1/B2) |
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Entrance Exam Description
Subjects of the exam: English Language, specialty exam.
Program Structure
The programme combines advanced coursework, practical engineering skills and applied project activities:
1. Advanced Engineering Foundations
Students build on undergraduate knowledge with high-level subjects such as: Power system analysis and optimisation; Electrical network design and electricity supply principles; Energy management and sustainable practices; Electrotechnical complex engineering methods.
These foundational courses equip students with a deep understanding of power and electrical engineering systems.
2. Applied Technical Skills
Practical engineering subjects focus on tools and technologies used in industry: Modelling and simulation of power systems; Smart grid components and digital energy technologies; Control and protection of electrical networks; Energy quality, safety and reliability methods.
Hands-on learning ensures graduates can address real technical challenges in power systems and electrotechnical complexes.
3. Energy Policy & Management
Alongside engineering, students study frameworks and strategies for managing energy systems: Energy policy and regulation; Economic analysis of energy systems; Strategic planning for sustainable energy infrastructure.
This prepares graduates to make informed decisions that integrate technical and organisational perspectives.
4. Applied Projects & Case Studies
Students engage in project-oriented assignments based on real-world scenarios, developing skills in: Collaborative system design; Analytical problem solving; Engineering documentation and reporting.
These activities mirror professional engineering practice.
5. Master’s Thesis
The Master’s thesis is the capstone of the programme: an independent research or applied engineering project that demonstrates students’ ability to integrate advanced theory and practice to solve complex problems in energy management, electricity supply or electrotechnical systems.
Overview
The programme is designed to prepare specialists who can manage energy systems, ensure reliable electricity supply, and design, analyse and optimise electrotechnical complexes used in modern power networks and industrial applications. Students gain advanced theoretical and practical knowledge in energy management, electrical infrastructure, power delivery systems and electrotechnical engineering.
Career Opportunities
Graduates of this Master’s programme are prepared for a wide range of specialised and leadership roles in the energy sector, including:
- Energy Management Engineer – plan and implement efficient energy systems;
- Electricity Supply Specialist – ensure continuity and quality of power delivery;
- Electrotechnical Systems Engineer – design and optimise electrical infrastructure;
- Power Network Analyst – model and analyse distribution and supply systems;
- Technical Project Manager – lead complex energy and electrical engineering projects;
- Consultant in Power System Solutions – provide strategic and technical guidance.
These competencies are highly valued by energy companies, utility providers, consulting firms, industrial enterprises, infrastructure operators and governmental energy agencies.